/*************************************************************************/ /*!
@Title          Hardware definition file rgxpmdefs.h
@Copyright      Copyright (c) Imagination Technologies Ltd. All Rights Reserved
@License        Dual MIT/GPLv2

The contents of this file are subject to the MIT license as set out below.

Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:

The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.

Alternatively, the contents of this file may be used under the terms of
the GNU General Public License Version 2 ("GPL") in which case the provisions
of GPL are applicable instead of those above.

If you wish to allow use of your version of this file only under the terms of
GPL, and not to allow others to use your version of this file under the terms
of the MIT license, indicate your decision by deleting the provisions above
and replace them with the notice and other provisions required by GPL as set
out in the file called "GPL-COPYING" included in this distribution. If you do
not delete the provisions above, a recipient may use your version of this file
under the terms of either the MIT license or GPL.

This License is also included in this distribution in the file called
"MIT-COPYING".

EXCEPT AS OTHERWISE STATED IN A NEGOTIATED AGREEMENT: (A) THE SOFTWARE IS
PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING
BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR
PURPOSE AND NONINFRINGEMENT; AND (B) IN NO EVENT SHALL THE AUTHORS OR
COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/ /**************************************************************************/

/*               ****   Autogenerated C -- do not edit    ****               */

/*
 *      rogue_pm.def: #12
 */


#ifndef RGXPMDEFS_H
#define RGXPMDEFS_H

#include "img_types.h"
#include "img_defs.h"


#define RGXPMDEFS_REVISION 12

/*
The mini PB size on a per-RT basis
*/
typedef struct _PM_DATA_MINI_PB {
     IMG_UINT32 u32_0;
} PM_DATA_MINI_PB;

/*

*/
#define PM_DATA_MINI_PB_SIZE_WOFF                         (0U)
#define PM_DATA_MINI_PB_SIZE_SHIFT                        (0U)
#define PM_DATA_MINI_PB_SIZE_CLRMSK                       (0xFFFFFC00U)
#define PM_DATA_MINI_PB_SET_SIZE(_ft_,_x_)                ((_ft_).u32_0 = (((_ft_).u32_0 & PM_DATA_MINI_PB_SIZE_CLRMSK ) | (((_x_) & (0x000003ffU))  <<  (PM_DATA_MINI_PB_SIZE_SHIFT))))
#define PM_DATA_MINI_PB_GET_SIZE(_ft_)                    ((_ft_).u32_0  >>  ((PM_DATA_MINI_PB_SIZE_SHIFT)) & 0x000003ffU)


/*
The minimum PB size for the WDDM driver only. It is consistent with the OPENGL/OPENGLES. However, it is breaking down as two parts: the pagable memory and non pagable memory.
*/
typedef struct _PM_DATA_WDDM_MINI_PB {
     IMG_UINT32 u32_0;
} PM_DATA_WDDM_MINI_PB;

/*

*/
#define PM_DATA_WDDM_MINI_PB_NON_PAGABLE_SIZE_WOFF        (0U)
#define PM_DATA_WDDM_MINI_PB_NON_PAGABLE_SIZE_SHIFT       (10U)
#define PM_DATA_WDDM_MINI_PB_NON_PAGABLE_SIZE_CLRMSK      (0xFFF003FFU)
#define PM_DATA_WDDM_MINI_PB_SET_NON_PAGABLE_SIZE(_ft_,_x_) ((_ft_).u32_0 = (((_ft_).u32_0 & PM_DATA_WDDM_MINI_PB_NON_PAGABLE_SIZE_CLRMSK ) | (((_x_) & (0x000003ffU))  <<  (PM_DATA_WDDM_MINI_PB_NON_PAGABLE_SIZE_SHIFT))))
#define PM_DATA_WDDM_MINI_PB_GET_NON_PAGABLE_SIZE(_ft_)   ((_ft_).u32_0  >>  ((PM_DATA_WDDM_MINI_PB_NON_PAGABLE_SIZE_SHIFT)) & 0x000003ffU)
/*

*/
#define PM_DATA_WDDM_MINI_PB_PAGABLE_SIZE_WOFF            (0U)
#define PM_DATA_WDDM_MINI_PB_PAGABLE_SIZE_SHIFT           (0U)
#define PM_DATA_WDDM_MINI_PB_PAGABLE_SIZE_CLRMSK          (0xFFFFFC00U)
#define PM_DATA_WDDM_MINI_PB_SET_PAGABLE_SIZE(_ft_,_x_)   ((_ft_).u32_0 = (((_ft_).u32_0 & PM_DATA_WDDM_MINI_PB_PAGABLE_SIZE_CLRMSK ) | (((_x_) & (0x000003ffU))  <<  (PM_DATA_WDDM_MINI_PB_PAGABLE_SIZE_SHIFT))))
#define PM_DATA_WDDM_MINI_PB_GET_PAGABLE_SIZE(_ft_)       ((_ft_).u32_0  >>  ((PM_DATA_WDDM_MINI_PB_PAGABLE_SIZE_SHIFT)) & 0x000003ffU)


/*
the mini number of the reserve pages when only the local free list is used */
#define PM_DATA_PM_RESERVE_PAGES_MIN_SIZE                 (0x00000007U)


/*
the mini number of the reserve pages when unified free list is present */
#define PM_DATA_PM_RESERVE_PAGES_MIN_UNIFIED_SIZE         (0x0000000bU)


/*
This defines the format of entries in the FSTACK, UFSTACK and MMUSTACK
*/
typedef struct _PM_DATA_FSTACK_ENTRY {
     IMG_UINT32 u32_0;
} PM_DATA_FSTACK_ENTRY;

/*
Reserved for future use
*/
#define PM_DATA_FSTACK_ENTRY_RSV_WOFF                     (0U)
#define PM_DATA_FSTACK_ENTRY_RSV_SHIFT                    (28U)
#define PM_DATA_FSTACK_ENTRY_RSV_CLRMSK                   (0x0FFFFFFFU)
#define PM_DATA_FSTACK_ENTRY_SET_RSV(_ft_,_x_)            ((_ft_).u32_0 = (((_ft_).u32_0 & PM_DATA_FSTACK_ENTRY_RSV_CLRMSK ) | (((_x_) & (0x0000000fU))  <<  (PM_DATA_FSTACK_ENTRY_RSV_SHIFT))))
#define PM_DATA_FSTACK_ENTRY_GET_RSV(_ft_)                ((_ft_).u32_0  >>  ((PM_DATA_FSTACK_ENTRY_RSV_SHIFT)) & 0x0000000fU)
/*
Address of 4 kB physical page
*/
#define PM_DATA_FSTACK_ENTRY_PPAGE_WOFF                   (0U)
#define PM_DATA_FSTACK_ENTRY_PPAGE_SHIFT                  (0U)
#define PM_DATA_FSTACK_ENTRY_PPAGE_CLRMSK                 (0xF0000000U)
#define PM_DATA_FSTACK_ENTRY_SET_PPAGE(_ft_,_x_)          ((_ft_).u32_0 = (((_ft_).u32_0 & PM_DATA_FSTACK_ENTRY_PPAGE_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_FSTACK_ENTRY_PPAGE_SHIFT))))
#define PM_DATA_FSTACK_ENTRY_GET_PPAGE(_ft_)              ((_ft_).u32_0  >>  ((PM_DATA_FSTACK_ENTRY_PPAGE_SHIFT)) & 0x0fffffffU)


/*
This defines the format of an ALIST (Allocation List) entry
*/
typedef struct _PM_DATA_ALIST_ENTRY {
     IMG_UINT32 u32_0;
     IMG_UINT32 u32_1;
} PM_DATA_ALIST_ENTRY;

/*
Valid bit.  Indicates whether this ALIST entry is valid.
*/
#define PM_DATA_ALIST_ENTRY_VAL_WOFF                      (1U)
#define PM_DATA_ALIST_ENTRY_VAL_SHIFT                     (31U)
#define PM_DATA_ALIST_ENTRY_VAL_CLRMSK                    (0x7FFFFFFFU)
#define PM_DATA_ALIST_ENTRY_SET_VAL(_ft_,_x_)             ((_ft_).u32_1 = (((_ft_).u32_1 & PM_DATA_ALIST_ENTRY_VAL_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_ALIST_ENTRY_VAL_SHIFT))))
#define PM_DATA_ALIST_ENTRY_GET_VAL(_ft_)                 ((_ft_).u32_1  >>  ((PM_DATA_ALIST_ENTRY_VAL_SHIFT)) & 0x00000001U)
/*
The "data master" of the virtual page.  0=VCE, 1=TE, 2,3=reserved.
*/
#define PM_DATA_ALIST_ENTRY_DM_INDEX_WOFF                 (1U)
#define PM_DATA_ALIST_ENTRY_DM_INDEX_SHIFT                (26U)
#define PM_DATA_ALIST_ENTRY_DM_INDEX_CLRMSK               (0xF3FFFFFFU)
#define PM_DATA_ALIST_ENTRY_SET_DM_INDEX(_ft_,_x_)        ((_ft_).u32_1 = (((_ft_).u32_1 & PM_DATA_ALIST_ENTRY_DM_INDEX_CLRMSK ) | (((_x_) & (0x00000003U))  <<  (PM_DATA_ALIST_ENTRY_DM_INDEX_SHIFT))))
#define PM_DATA_ALIST_ENTRY_GET_DM_INDEX(_ft_)            ((_ft_).u32_1  >>  ((PM_DATA_ALIST_ENTRY_DM_INDEX_SHIFT)) & 0x00000003U)
/*
Render Target Array index.  Up to 2 k Render Target Arrays are supported.
*/
#define PM_DATA_ALIST_ENTRY_RTA_INDEX_WOFF                (1U)
#define PM_DATA_ALIST_ENTRY_RTA_INDEX_SHIFT               (14U)
#define PM_DATA_ALIST_ENTRY_RTA_INDEX_CLRMSK              (0xFE003FFFU)
#define PM_DATA_ALIST_ENTRY_SET_RTA_INDEX(_ft_,_x_)       ((_ft_).u32_1 = (((_ft_).u32_1 & PM_DATA_ALIST_ENTRY_RTA_INDEX_CLRMSK ) | (((_x_) & (0x000007ffU))  <<  (PM_DATA_ALIST_ENTRY_RTA_INDEX_SHIFT))))
#define PM_DATA_ALIST_ENTRY_GET_RTA_INDEX(_ft_)           ((_ft_).u32_1  >>  ((PM_DATA_ALIST_ENTRY_RTA_INDEX_SHIFT)) & 0x000007ffU)
/*
The virtual page number (16 kB virtual page).
*/
#define PM_DATA_ALIST_ENTRY_VRP_PPAGE_W0_WOFF             (0U)
#define PM_DATA_ALIST_ENTRY_VRP_PPAGE_W1_WOFF             (1U)
#define PM_DATA_ALIST_ENTRY_VRP_PPAGE_W0_SHIFT            (16U)
#define PM_DATA_ALIST_ENTRY_VRP_PPAGE_W1_SHIFT            (0U)
#define PM_DATA_ALIST_ENTRY_VRP_PPAGE_W0_CLRMSK           (0x0000FFFFU)
#define PM_DATA_ALIST_ENTRY_VRP_PPAGE_W1_CLRMSK           (0xFFFFFFF0U)
#define PM_DATA_ALIST_ENTRY_SET_VRP_PPAGE(_ft_,_x_)       { ((_ft_).u32_0 = (((_ft_).u32_0 & PM_DATA_ALIST_ENTRY_VRP_PPAGE_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000ffff)))  <<  16))); \
                                                          ((_ft_).u32_1 = (((_ft_).u32_1 & PM_DATA_ALIST_ENTRY_VRP_PPAGE_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000f0000)))  >>  16))); }
#define PM_DATA_ALIST_ENTRY_GET_VRP_PPAGE(_ft_)           (((_ft_).u32_0  >>  (16)) | ((IMG_UINT64)((_ft_).u32_1 & 0x0000000fU ) << (16)))
/*
The 16-bit macrotile mask.  Indicates which macrotile(s) are using this 16 kB page
*/
#define PM_DATA_ALIST_ENTRY_MTILE_MASK_WOFF               (0U)
#define PM_DATA_ALIST_ENTRY_MTILE_MASK_SHIFT              (0U)
#define PM_DATA_ALIST_ENTRY_MTILE_MASK_CLRMSK             (0xFFFF0000U)
#define PM_DATA_ALIST_ENTRY_SET_MTILE_MASK(_ft_,_x_)      ((_ft_).u32_0 = (((_ft_).u32_0 & PM_DATA_ALIST_ENTRY_MTILE_MASK_CLRMSK ) | (((_x_) & (0x0000ffffU))  <<  (PM_DATA_ALIST_ENTRY_MTILE_MASK_SHIFT))))
#define PM_DATA_ALIST_ENTRY_GET_MTILE_MASK(_ft_)          ((_ft_).u32_0  >>  ((PM_DATA_ALIST_ENTRY_MTILE_MASK_SHIFT)) & 0x0000ffffU)


/*
This defines the format of entries in the MLIST
*/
typedef struct _PM_DATA_MLIST_ENTRY {
     IMG_UINT32 u32_0;
} PM_DATA_MLIST_ENTRY;

/*
Original source of the MMU page:
0=Page was allocated from the FSTACK,
1=Page was allocated from the UFSTACK.
This bit is ignored when RGX_CR_PM_MMU_STACK_POLICY=1
*/
#define PM_DATA_MLIST_ENTRY_SRC_WOFF                      (0U)
#define PM_DATA_MLIST_ENTRY_SRC_SHIFT                     (31U)
#define PM_DATA_MLIST_ENTRY_SRC_CLRMSK                    (0x7FFFFFFFU)
#define PM_DATA_MLIST_ENTRY_SET_SRC(_ft_,_x_)             ((_ft_).u32_0 = (((_ft_).u32_0 & PM_DATA_MLIST_ENTRY_SRC_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_MLIST_ENTRY_SRC_SHIFT))))
#define PM_DATA_MLIST_ENTRY_GET_SRC(_ft_)                 ((_ft_).u32_0  >>  ((PM_DATA_MLIST_ENTRY_SRC_SHIFT)) & 0x00000001U)
/*
Address of Physical Page allocated to MMU
*/
#define PM_DATA_MLIST_ENTRY_PPAGE_WOFF                    (0U)
#define PM_DATA_MLIST_ENTRY_PPAGE_SHIFT                   (0U)
#define PM_DATA_MLIST_ENTRY_PPAGE_CLRMSK                  (0xF0000000U)
#define PM_DATA_MLIST_ENTRY_SET_PPAGE(_ft_,_x_)           ((_ft_).u32_0 = (((_ft_).u32_0 & PM_DATA_MLIST_ENTRY_PPAGE_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_MLIST_ENTRY_PPAGE_SHIFT))))
#define PM_DATA_MLIST_ENTRY_GET_PPAGE(_ft_)               ((_ft_).u32_0  >>  ((PM_DATA_MLIST_ENTRY_PPAGE_SHIFT)) & 0x0fffffffU)


/*
This defines the format of entries in the VFP Table
*/
typedef struct _PM_DATA_VFP_TABLE_ENTRY {
     IMG_UINT32 u32_0;
     IMG_UINT32 u32_1;
} PM_DATA_VFP_TABLE_ENTRY;

/*
Valid bit.  0=VFP is unmapped, 1=VFP is mapped.
*/
#define PM_DATA_VFP_TABLE_ENTRY_VALID_WOFF                (1U)
#define PM_DATA_VFP_TABLE_ENTRY_VALID_SHIFT               (31U)
#define PM_DATA_VFP_TABLE_ENTRY_VALID_CLRMSK              (0x7FFFFFFFU)
#define PM_DATA_VFP_TABLE_ENTRY_SET_VALID(_ft_,_x_)       ((_ft_).u32_1 = (((_ft_).u32_1 & PM_DATA_VFP_TABLE_ENTRY_VALID_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VFP_TABLE_ENTRY_VALID_SHIFT))))
#define PM_DATA_VFP_TABLE_ENTRY_GET_VALID(_ft_)           ((_ft_).u32_1  >>  ((PM_DATA_VFP_TABLE_ENTRY_VALID_SHIFT)) & 0x00000001U)
/*
Address of MMU Page Table Entry.  8 Byte Granular.
*/
#define PM_DATA_VFP_TABLE_ENTRY_PTE_PTR_WOFF              (1U)
#define PM_DATA_VFP_TABLE_ENTRY_PTE_PTR_SHIFT             (0U)
#define PM_DATA_VFP_TABLE_ENTRY_PTE_PTR_CLRMSK            (0x80000000U)
#define PM_DATA_VFP_TABLE_ENTRY_SET_PTE_PTR(_ft_,_x_)     ((_ft_).u32_1 = (((_ft_).u32_1 & PM_DATA_VFP_TABLE_ENTRY_PTE_PTR_CLRMSK ) | (((_x_) & (0x7fffffffU))  <<  (PM_DATA_VFP_TABLE_ENTRY_PTE_PTR_SHIFT))))
#define PM_DATA_VFP_TABLE_ENTRY_GET_PTE_PTR(_ft_)         ((_ft_).u32_1  >>  ((PM_DATA_VFP_TABLE_ENTRY_PTE_PTR_SHIFT)) & 0x7fffffffU)
/*
Reserved for future use.
*/
#define PM_DATA_VFP_TABLE_ENTRY_RSV_WOFF                  (0U)
#define PM_DATA_VFP_TABLE_ENTRY_RSV_SHIFT                 (28U)
#define PM_DATA_VFP_TABLE_ENTRY_RSV_CLRMSK                (0x0FFFFFFFU)
#define PM_DATA_VFP_TABLE_ENTRY_SET_RSV(_ft_,_x_)         ((_ft_).u32_0 = (((_ft_).u32_0 & PM_DATA_VFP_TABLE_ENTRY_RSV_CLRMSK ) | (((_x_) & (0x0000000fU))  <<  (PM_DATA_VFP_TABLE_ENTRY_RSV_SHIFT))))
#define PM_DATA_VFP_TABLE_ENTRY_GET_RSV(_ft_)             ((_ft_).u32_0  >>  ((PM_DATA_VFP_TABLE_ENTRY_RSV_SHIFT)) & 0x0000000fU)
/*
Address of 1 kB Physical Page. 1 TB addressable.
*/
#define PM_DATA_VFP_TABLE_ENTRY_PPAGE_WOFF                (0U)
#define PM_DATA_VFP_TABLE_ENTRY_PPAGE_SHIFT               (0U)
#define PM_DATA_VFP_TABLE_ENTRY_PPAGE_CLRMSK              (0xF0000000U)
#define PM_DATA_VFP_TABLE_ENTRY_SET_PPAGE(_ft_,_x_)       ((_ft_).u32_0 = (((_ft_).u32_0 & PM_DATA_VFP_TABLE_ENTRY_PPAGE_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VFP_TABLE_ENTRY_PPAGE_SHIFT))))
#define PM_DATA_VFP_TABLE_ENTRY_GET_PPAGE(_ft_)           ((_ft_).u32_0  >>  ((PM_DATA_VFP_TABLE_ENTRY_PPAGE_SHIFT)) & 0x0fffffffU)


/*
PerPipe Segment SIZE, it has a fixed mapping as follows:
PIPE Number - Segment Size
1             16G
2             8G
4             4G
8             2G
*/
typedef struct _PM_DATA_PERPIPE_SEGSIZE {
     IMG_UINT32 u32_0;
} PM_DATA_PERPIPE_SEGSIZE;

/*
PerSegment Size 2G
*/
#define PM_DATA_PERPIPE_SEGSIZE_PIPE8_SEGSZIZE_WOFF       (0U)
#define PM_DATA_PERPIPE_SEGSIZE_PIPE8_SEGSZIZE_SHIFT      (3U)
#define PM_DATA_PERPIPE_SEGSIZE_PIPE8_SEGSZIZE_CLRMSK     (0xFFFFFFF7U)
#define PM_DATA_PERPIPE_SEGSIZE_SET_PIPE8_SEGSZIZE(_ft_,_x_) ((_ft_).u32_0 = (((_ft_).u32_0 & PM_DATA_PERPIPE_SEGSIZE_PIPE8_SEGSZIZE_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_PERPIPE_SEGSIZE_PIPE8_SEGSZIZE_SHIFT))))
#define PM_DATA_PERPIPE_SEGSIZE_GET_PIPE8_SEGSZIZE(_ft_)  ((_ft_).u32_0  >>  ((PM_DATA_PERPIPE_SEGSIZE_PIPE8_SEGSZIZE_SHIFT)) & 0x00000001U)
/*
PerSegment Size 4G
*/
#define PM_DATA_PERPIPE_SEGSIZE_PIPE4_SEGSZIZE_WOFF       (0U)
#define PM_DATA_PERPIPE_SEGSIZE_PIPE4_SEGSZIZE_SHIFT      (2U)
#define PM_DATA_PERPIPE_SEGSIZE_PIPE4_SEGSZIZE_CLRMSK     (0xFFFFFFFBU)
#define PM_DATA_PERPIPE_SEGSIZE_SET_PIPE4_SEGSZIZE(_ft_,_x_) ((_ft_).u32_0 = (((_ft_).u32_0 & PM_DATA_PERPIPE_SEGSIZE_PIPE4_SEGSZIZE_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_PERPIPE_SEGSIZE_PIPE4_SEGSZIZE_SHIFT))))
#define PM_DATA_PERPIPE_SEGSIZE_GET_PIPE4_SEGSZIZE(_ft_)  ((_ft_).u32_0  >>  ((PM_DATA_PERPIPE_SEGSIZE_PIPE4_SEGSZIZE_SHIFT)) & 0x00000001U)
/*
PerSegment Size 8G
*/
#define PM_DATA_PERPIPE_SEGSIZE_PIPE2_SEGSZIZE_WOFF       (0U)
#define PM_DATA_PERPIPE_SEGSIZE_PIPE2_SEGSZIZE_SHIFT      (1U)
#define PM_DATA_PERPIPE_SEGSIZE_PIPE2_SEGSZIZE_CLRMSK     (0xFFFFFFFDU)
#define PM_DATA_PERPIPE_SEGSIZE_SET_PIPE2_SEGSZIZE(_ft_,_x_) ((_ft_).u32_0 = (((_ft_).u32_0 & PM_DATA_PERPIPE_SEGSIZE_PIPE2_SEGSZIZE_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_PERPIPE_SEGSIZE_PIPE2_SEGSZIZE_SHIFT))))
#define PM_DATA_PERPIPE_SEGSIZE_GET_PIPE2_SEGSZIZE(_ft_)  ((_ft_).u32_0  >>  ((PM_DATA_PERPIPE_SEGSIZE_PIPE2_SEGSZIZE_SHIFT)) & 0x00000001U)
/*
PerSegment Size 16G
*/
#define PM_DATA_PERPIPE_SEGSIZE_PIPE1_SEGSZIZE_WOFF       (0U)
#define PM_DATA_PERPIPE_SEGSIZE_PIPE1_SEGSZIZE_SHIFT      (0U)
#define PM_DATA_PERPIPE_SEGSIZE_PIPE1_SEGSZIZE_CLRMSK     (0xFFFFFFFEU)
#define PM_DATA_PERPIPE_SEGSIZE_SET_PIPE1_SEGSZIZE(_ft_,_x_) ((_ft_).u32_0 = (((_ft_).u32_0 & PM_DATA_PERPIPE_SEGSIZE_PIPE1_SEGSZIZE_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_PERPIPE_SEGSIZE_PIPE1_SEGSZIZE_SHIFT))))
#define PM_DATA_PERPIPE_SEGSIZE_GET_PIPE1_SEGSZIZE(_ft_)  ((_ft_).u32_0  >>  ((PM_DATA_PERPIPE_SEGSIZE_PIPE1_SEGSZIZE_SHIFT)) & 0x00000001U)


/*
PM Virtual Heap Buffer Offset. This buffer contains all the meta-data associated with each render target.
size is 11904/8 = 1488 Bytes.

Natively the buffer supports up to 8-VCEs and 8-TEs scaling without changing HW.

In case relevant PIPE N is not present, the corresponding space is just reserved.
*/
typedef struct _PM_DATA_VHEAP_BUFFER {
     IMG_UINT32 u32_0;
     IMG_UINT32 u32_1;
     IMG_UINT32 u32_2;
     IMG_UINT32 u32_3;
     IMG_UINT32 u32_4;
     IMG_UINT32 u32_5;
     IMG_UINT32 u32_6;
     IMG_UINT32 u32_7;
     IMG_UINT32 u32_8;
     IMG_UINT32 u32_9;
     IMG_UINT32 u32_10;
     IMG_UINT32 u32_11;
     IMG_UINT32 u32_12;
     IMG_UINT32 u32_13;
     IMG_UINT32 u32_14;
     IMG_UINT32 u32_15;
     IMG_UINT32 u32_16;
     IMG_UINT32 u32_17;
     IMG_UINT32 u32_18;
     IMG_UINT32 u32_19;
     IMG_UINT32 u32_20;
     IMG_UINT32 u32_21;
     IMG_UINT32 u32_22;
     IMG_UINT32 u32_23;
     IMG_UINT32 u32_24;
     IMG_UINT32 u32_25;
     IMG_UINT32 u32_26;
     IMG_UINT32 u32_27;
     IMG_UINT32 u32_28;
     IMG_UINT32 u32_29;
     IMG_UINT32 u32_30;
     IMG_UINT32 u32_31;
     IMG_UINT32 u32_32;
     IMG_UINT32 u32_33;
     IMG_UINT32 u32_34;
     IMG_UINT32 u32_35;
     IMG_UINT32 u32_36;
     IMG_UINT32 u32_37;
     IMG_UINT32 u32_38;
     IMG_UINT32 u32_39;
     IMG_UINT32 u32_40;
     IMG_UINT32 u32_41;
     IMG_UINT32 u32_42;
     IMG_UINT32 u32_43;
     IMG_UINT32 u32_44;
     IMG_UINT32 u32_45;
     IMG_UINT32 u32_46;
     IMG_UINT32 u32_47;
     IMG_UINT32 u32_48;
     IMG_UINT32 u32_49;
     IMG_UINT32 u32_50;
     IMG_UINT32 u32_51;
     IMG_UINT32 u32_52;
     IMG_UINT32 u32_53;
     IMG_UINT32 u32_54;
     IMG_UINT32 u32_55;
     IMG_UINT32 u32_56;
     IMG_UINT32 u32_57;
     IMG_UINT32 u32_58;
     IMG_UINT32 u32_59;
     IMG_UINT32 u32_60;
     IMG_UINT32 u32_61;
     IMG_UINT32 u32_62;
     IMG_UINT32 u32_63;
     IMG_UINT32 u32_64;
     IMG_UINT32 u32_65;
     IMG_UINT32 u32_66;
     IMG_UINT32 u32_67;
     IMG_UINT32 u32_68;
     IMG_UINT32 u32_69;
     IMG_UINT32 u32_70;
     IMG_UINT32 u32_71;
     IMG_UINT32 u32_72;
     IMG_UINT32 u32_73;
     IMG_UINT32 u32_74;
     IMG_UINT32 u32_75;
     IMG_UINT32 u32_76;
     IMG_UINT32 u32_77;
     IMG_UINT32 u32_78;
     IMG_UINT32 u32_79;
     IMG_UINT32 u32_80;
     IMG_UINT32 u32_81;
     IMG_UINT32 u32_82;
     IMG_UINT32 u32_83;
     IMG_UINT32 u32_84;
     IMG_UINT32 u32_85;
     IMG_UINT32 u32_86;
     IMG_UINT32 u32_87;
     IMG_UINT32 u32_88;
     IMG_UINT32 u32_89;
     IMG_UINT32 u32_90;
     IMG_UINT32 u32_91;
     IMG_UINT32 u32_92;
     IMG_UINT32 u32_93;
     IMG_UINT32 u32_94;
     IMG_UINT32 u32_95;
     IMG_UINT32 u32_96;
     IMG_UINT32 u32_97;
     IMG_UINT32 u32_98;
     IMG_UINT32 u32_99;
     IMG_UINT32 u32_100;
     IMG_UINT32 u32_101;
     IMG_UINT32 u32_102;
     IMG_UINT32 u32_103;
     IMG_UINT32 u32_104;
     IMG_UINT32 u32_105;
     IMG_UINT32 u32_106;
     IMG_UINT32 u32_107;
     IMG_UINT32 u32_108;
     IMG_UINT32 u32_109;
     IMG_UINT32 u32_110;
     IMG_UINT32 u32_111;
     IMG_UINT32 u32_112;
     IMG_UINT32 u32_113;
     IMG_UINT32 u32_114;
     IMG_UINT32 u32_115;
     IMG_UINT32 u32_116;
     IMG_UINT32 u32_117;
     IMG_UINT32 u32_118;
     IMG_UINT32 u32_119;
     IMG_UINT32 u32_120;
     IMG_UINT32 u32_121;
     IMG_UINT32 u32_122;
     IMG_UINT32 u32_123;
     IMG_UINT32 u32_124;
     IMG_UINT32 u32_125;
     IMG_UINT32 u32_126;
     IMG_UINT32 u32_127;
     IMG_UINT32 u32_128;
     IMG_UINT32 u32_129;
     IMG_UINT32 u32_130;
     IMG_UINT32 u32_131;
     IMG_UINT32 u32_132;
     IMG_UINT32 u32_133;
     IMG_UINT32 u32_134;
     IMG_UINT32 u32_135;
     IMG_UINT32 u32_136;
     IMG_UINT32 u32_137;
     IMG_UINT32 u32_138;
     IMG_UINT32 u32_139;
     IMG_UINT32 u32_140;
     IMG_UINT32 u32_141;
     IMG_UINT32 u32_142;
     IMG_UINT32 u32_143;
     IMG_UINT32 u32_144;
     IMG_UINT32 u32_145;
     IMG_UINT32 u32_146;
     IMG_UINT32 u32_147;
     IMG_UINT32 u32_148;
     IMG_UINT32 u32_149;
     IMG_UINT32 u32_150;
     IMG_UINT32 u32_151;
     IMG_UINT32 u32_152;
     IMG_UINT32 u32_153;
     IMG_UINT32 u32_154;
     IMG_UINT32 u32_155;
     IMG_UINT32 u32_156;
     IMG_UINT32 u32_157;
     IMG_UINT32 u32_158;
     IMG_UINT32 u32_159;
     IMG_UINT32 u32_160;
     IMG_UINT32 u32_161;
     IMG_UINT32 u32_162;
     IMG_UINT32 u32_163;
     IMG_UINT32 u32_164;
     IMG_UINT32 u32_165;
     IMG_UINT32 u32_166;
     IMG_UINT32 u32_167;
     IMG_UINT32 u32_168;
     IMG_UINT32 u32_169;
     IMG_UINT32 u32_170;
     IMG_UINT32 u32_171;
     IMG_UINT32 u32_172;
     IMG_UINT32 u32_173;
     IMG_UINT32 u32_174;
     IMG_UINT32 u32_175;
     IMG_UINT32 u32_176;
     IMG_UINT32 u32_177;
     IMG_UINT32 u32_178;
     IMG_UINT32 u32_179;
     IMG_UINT32 u32_180;
     IMG_UINT32 u32_181;
     IMG_UINT32 u32_182;
     IMG_UINT32 u32_183;
     IMG_UINT32 u32_184;
     IMG_UINT32 u32_185;
     IMG_UINT32 u32_186;
     IMG_UINT32 u32_187;
     IMG_UINT32 u32_188;
     IMG_UINT32 u32_189;
     IMG_UINT32 u32_190;
     IMG_UINT32 u32_191;
     IMG_UINT32 u32_192;
     IMG_UINT32 u32_193;
     IMG_UINT32 u32_194;
     IMG_UINT32 u32_195;
     IMG_UINT32 u32_196;
     IMG_UINT32 u32_197;
     IMG_UINT32 u32_198;
     IMG_UINT32 u32_199;
     IMG_UINT32 u32_200;
     IMG_UINT32 u32_201;
     IMG_UINT32 u32_202;
     IMG_UINT32 u32_203;
     IMG_UINT32 u32_204;
     IMG_UINT32 u32_205;
     IMG_UINT32 u32_206;
     IMG_UINT32 u32_207;
     IMG_UINT32 u32_208;
     IMG_UINT32 u32_209;
     IMG_UINT32 u32_210;
     IMG_UINT32 u32_211;
     IMG_UINT32 u32_212;
     IMG_UINT32 u32_213;
     IMG_UINT32 u32_214;
     IMG_UINT32 u32_215;
     IMG_UINT32 u32_216;
     IMG_UINT32 u32_217;
     IMG_UINT32 u32_218;
     IMG_UINT32 u32_219;
     IMG_UINT32 u32_220;
     IMG_UINT32 u32_221;
     IMG_UINT32 u32_222;
     IMG_UINT32 u32_223;
     IMG_UINT32 u32_224;
     IMG_UINT32 u32_225;
     IMG_UINT32 u32_226;
     IMG_UINT32 u32_227;
     IMG_UINT32 u32_228;
     IMG_UINT32 u32_229;
     IMG_UINT32 u32_230;
     IMG_UINT32 u32_231;
     IMG_UINT32 u32_232;
     IMG_UINT32 u32_233;
     IMG_UINT32 u32_234;
     IMG_UINT32 u32_235;
     IMG_UINT32 u32_236;
     IMG_UINT32 u32_237;
     IMG_UINT32 u32_238;
     IMG_UINT32 u32_239;
     IMG_UINT32 u32_240;
     IMG_UINT32 u32_241;
     IMG_UINT32 u32_242;
     IMG_UINT32 u32_243;
     IMG_UINT32 u32_244;
     IMG_UINT32 u32_245;
     IMG_UINT32 u32_246;
     IMG_UINT32 u32_247;
     IMG_UINT32 u32_248;
     IMG_UINT32 u32_249;
     IMG_UINT32 u32_250;
     IMG_UINT32 u32_251;
     IMG_UINT32 u32_252;
     IMG_UINT32 u32_253;
     IMG_UINT32 u32_254;
     IMG_UINT32 u32_255;
     IMG_UINT32 u32_256;
     IMG_UINT32 u32_257;
     IMG_UINT32 u32_258;
     IMG_UINT32 u32_259;
     IMG_UINT32 u32_260;
     IMG_UINT32 u32_261;
     IMG_UINT32 u32_262;
     IMG_UINT32 u32_263;
     IMG_UINT32 u32_264;
     IMG_UINT32 u32_265;
     IMG_UINT32 u32_266;
     IMG_UINT32 u32_267;
     IMG_UINT32 u32_268;
     IMG_UINT32 u32_269;
     IMG_UINT32 u32_270;
     IMG_UINT32 u32_271;
     IMG_UINT32 u32_272;
     IMG_UINT32 u32_273;
     IMG_UINT32 u32_274;
     IMG_UINT32 u32_275;
     IMG_UINT32 u32_276;
     IMG_UINT32 u32_277;
     IMG_UINT32 u32_278;
     IMG_UINT32 u32_279;
     IMG_UINT32 u32_280;
     IMG_UINT32 u32_281;
     IMG_UINT32 u32_282;
     IMG_UINT32 u32_283;
     IMG_UINT32 u32_284;
     IMG_UINT32 u32_285;
     IMG_UINT32 u32_286;
     IMG_UINT32 u32_287;
     IMG_UINT32 u32_288;
     IMG_UINT32 u32_289;
     IMG_UINT32 u32_290;
     IMG_UINT32 u32_291;
     IMG_UINT32 u32_292;
     IMG_UINT32 u32_293;
     IMG_UINT32 u32_294;
     IMG_UINT32 u32_295;
     IMG_UINT32 u32_296;
     IMG_UINT32 u32_297;
     IMG_UINT32 u32_298;
     IMG_UINT32 u32_299;
     IMG_UINT32 u32_300;
     IMG_UINT32 u32_301;
     IMG_UINT32 u32_302;
     IMG_UINT32 u32_303;
     IMG_UINT32 u32_304;
     IMG_UINT32 u32_305;
     IMG_UINT32 u32_306;
     IMG_UINT32 u32_307;
     IMG_UINT32 u32_308;
     IMG_UINT32 u32_309;
     IMG_UINT32 u32_310;
     IMG_UINT32 u32_311;
     IMG_UINT32 u32_312;
     IMG_UINT32 u32_313;
     IMG_UINT32 u32_314;
     IMG_UINT32 u32_315;
     IMG_UINT32 u32_316;
     IMG_UINT32 u32_317;
     IMG_UINT32 u32_318;
     IMG_UINT32 u32_319;
     IMG_UINT32 u32_320;
     IMG_UINT32 u32_321;
     IMG_UINT32 u32_322;
     IMG_UINT32 u32_323;
     IMG_UINT32 u32_324;
     IMG_UINT32 u32_325;
     IMG_UINT32 u32_326;
     IMG_UINT32 u32_327;
     IMG_UINT32 u32_328;
     IMG_UINT32 u32_329;
     IMG_UINT32 u32_330;
     IMG_UINT32 u32_331;
     IMG_UINT32 u32_332;
     IMG_UINT32 u32_333;
     IMG_UINT32 u32_334;
     IMG_UINT32 u32_335;
     IMG_UINT32 u32_336;
     IMG_UINT32 u32_337;
     IMG_UINT32 u32_338;
     IMG_UINT32 u32_339;
     IMG_UINT32 u32_340;
     IMG_UINT32 u32_341;
     IMG_UINT32 u32_342;
     IMG_UINT32 u32_343;
     IMG_UINT32 u32_344;
     IMG_UINT32 u32_345;
     IMG_UINT32 u32_346;
     IMG_UINT32 u32_347;
     IMG_UINT32 u32_348;
     IMG_UINT32 u32_349;
     IMG_UINT32 u32_350;
     IMG_UINT32 u32_351;
     IMG_UINT32 u32_352;
     IMG_UINT32 u32_353;
     IMG_UINT32 u32_354;
     IMG_UINT32 u32_355;
     IMG_UINT32 u32_356;
     IMG_UINT32 u32_357;
     IMG_UINT32 u32_358;
     IMG_UINT32 u32_359;
     IMG_UINT32 u32_360;
     IMG_UINT32 u32_361;
     IMG_UINT32 u32_362;
     IMG_UINT32 u32_363;
     IMG_UINT32 u32_364;
     IMG_UINT32 u32_365;
     IMG_UINT32 u32_366;
     IMG_UINT32 u32_367;
     IMG_UINT32 u32_368;
     IMG_UINT32 u32_369;
     IMG_UINT32 u32_370;
     IMG_UINT32 u32_371;
} PM_DATA_VHEAP_BUFFER;

/*
TE7 opened page0 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_UFSTACK_WOFF   (371U)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_UFSTACK_SHIFT  (16U)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_TE7_INFLIGHT0_UFSTACK(_ft_,_x_) ((_ft_).u32_371 = (((_ft_).u32_371 & PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE7_INFLIGHT0_UFSTACK(_ft_) ((_ft_).u32_371  >>  ((PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_UFSTACK_SHIFT)) & 0x00000001U)
/*
TE7 opened page0 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE3_W0_WOFF (370U)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE3_W1_WOFF (371U)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE7_INFLIGHT0_PPAGE3(_ft_,_x_) { ((_ft_).u32_370 = (((_ft_).u32_370 & PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_371 = (((_ft_).u32_371 & PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE7_INFLIGHT0_PPAGE3(_ft_) (((_ft_).u32_370  >>  (20)) | ((IMG_UINT64)((_ft_).u32_371 & 0x0000ffffU ) << (12)))
/*
TE7 opened page0 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE2_W0_WOFF (369U)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE2_W1_WOFF (370U)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE7_INFLIGHT0_PPAGE2(_ft_,_x_) { ((_ft_).u32_369 = (((_ft_).u32_369 & PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_370 = (((_ft_).u32_370 & PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE7_INFLIGHT0_PPAGE2(_ft_) (((_ft_).u32_369  >>  (24)) | ((IMG_UINT64)((_ft_).u32_370 & 0x000fffffU ) << (8)))
/*
TE7 opened page0 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE1_W0_WOFF (368U)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE1_W1_WOFF (369U)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE7_INFLIGHT0_PPAGE1(_ft_,_x_) { ((_ft_).u32_368 = (((_ft_).u32_368 & PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_369 = (((_ft_).u32_369 & PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE7_INFLIGHT0_PPAGE1(_ft_) (((_ft_).u32_368  >>  (28)) | ((IMG_UINT64)((_ft_).u32_369 & 0x00ffffffU ) << (4)))
/*
TE7 opened page0 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE0_WOFF    (368U)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE0_SHIFT   (0U)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE0_CLRMSK  (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE7_INFLIGHT0_PPAGE0(_ft_,_x_) ((_ft_).u32_368 = (((_ft_).u32_368 & PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE7_INFLIGHT0_PPAGE0(_ft_) ((_ft_).u32_368  >>  ((PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
TE7 opened page0 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PAGE_WOFF      (364U)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PAGE_SHIFT     (0U)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PAGE_CLRMSK    (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE7_INFLIGHT0_PAGE(_ft_,_x_) ((_ft_).u32_364 = (((_ft_).u32_364 & PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE7_INFLIGHT0_PAGE(_ft_) ((_ft_).u32_364  >>  ((PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT0_PAGE_SHIFT)) & 0x000fffffU)
/*
TE6 opened page0 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_UFSTACK_WOFF   (363U)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_UFSTACK_SHIFT  (16U)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_TE6_INFLIGHT0_UFSTACK(_ft_,_x_) ((_ft_).u32_363 = (((_ft_).u32_363 & PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE6_INFLIGHT0_UFSTACK(_ft_) ((_ft_).u32_363  >>  ((PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_UFSTACK_SHIFT)) & 0x00000001U)
/*
TE6 opened page0 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE3_W0_WOFF (362U)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE3_W1_WOFF (363U)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE6_INFLIGHT0_PPAGE3(_ft_,_x_) { ((_ft_).u32_362 = (((_ft_).u32_362 & PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_363 = (((_ft_).u32_363 & PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE6_INFLIGHT0_PPAGE3(_ft_) (((_ft_).u32_362  >>  (20)) | ((IMG_UINT64)((_ft_).u32_363 & 0x0000ffffU ) << (12)))
/*
TE6 opened page0 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE2_W0_WOFF (361U)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE2_W1_WOFF (362U)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE6_INFLIGHT0_PPAGE2(_ft_,_x_) { ((_ft_).u32_361 = (((_ft_).u32_361 & PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_362 = (((_ft_).u32_362 & PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE6_INFLIGHT0_PPAGE2(_ft_) (((_ft_).u32_361  >>  (24)) | ((IMG_UINT64)((_ft_).u32_362 & 0x000fffffU ) << (8)))
/*
TE6 opened page0 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE1_W0_WOFF (360U)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE1_W1_WOFF (361U)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE6_INFLIGHT0_PPAGE1(_ft_,_x_) { ((_ft_).u32_360 = (((_ft_).u32_360 & PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_361 = (((_ft_).u32_361 & PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE6_INFLIGHT0_PPAGE1(_ft_) (((_ft_).u32_360  >>  (28)) | ((IMG_UINT64)((_ft_).u32_361 & 0x00ffffffU ) << (4)))
/*
TE6 opened page0 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE0_WOFF    (360U)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE0_SHIFT   (0U)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE0_CLRMSK  (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE6_INFLIGHT0_PPAGE0(_ft_,_x_) ((_ft_).u32_360 = (((_ft_).u32_360 & PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE6_INFLIGHT0_PPAGE0(_ft_) ((_ft_).u32_360  >>  ((PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
TE6 opened page0 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PAGE_WOFF      (356U)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PAGE_SHIFT     (0U)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PAGE_CLRMSK    (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE6_INFLIGHT0_PAGE(_ft_,_x_) ((_ft_).u32_356 = (((_ft_).u32_356 & PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE6_INFLIGHT0_PAGE(_ft_) ((_ft_).u32_356  >>  ((PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT0_PAGE_SHIFT)) & 0x000fffffU)
/*
TE5 opened page0 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_UFSTACK_WOFF   (355U)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_UFSTACK_SHIFT  (16U)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_TE5_INFLIGHT0_UFSTACK(_ft_,_x_) ((_ft_).u32_355 = (((_ft_).u32_355 & PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE5_INFLIGHT0_UFSTACK(_ft_) ((_ft_).u32_355  >>  ((PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_UFSTACK_SHIFT)) & 0x00000001U)
/*
TE5 opened page0 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE3_W0_WOFF (354U)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE3_W1_WOFF (355U)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE5_INFLIGHT0_PPAGE3(_ft_,_x_) { ((_ft_).u32_354 = (((_ft_).u32_354 & PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_355 = (((_ft_).u32_355 & PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE5_INFLIGHT0_PPAGE3(_ft_) (((_ft_).u32_354  >>  (20)) | ((IMG_UINT64)((_ft_).u32_355 & 0x0000ffffU ) << (12)))
/*
TE5 opened page0 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE2_W0_WOFF (353U)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE2_W1_WOFF (354U)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE5_INFLIGHT0_PPAGE2(_ft_,_x_) { ((_ft_).u32_353 = (((_ft_).u32_353 & PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_354 = (((_ft_).u32_354 & PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE5_INFLIGHT0_PPAGE2(_ft_) (((_ft_).u32_353  >>  (24)) | ((IMG_UINT64)((_ft_).u32_354 & 0x000fffffU ) << (8)))
/*
TE5 opened page0 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE1_W0_WOFF (352U)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE1_W1_WOFF (353U)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE5_INFLIGHT0_PPAGE1(_ft_,_x_) { ((_ft_).u32_352 = (((_ft_).u32_352 & PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_353 = (((_ft_).u32_353 & PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE5_INFLIGHT0_PPAGE1(_ft_) (((_ft_).u32_352  >>  (28)) | ((IMG_UINT64)((_ft_).u32_353 & 0x00ffffffU ) << (4)))
/*
TE5 opened page0 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE0_WOFF    (352U)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE0_SHIFT   (0U)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE0_CLRMSK  (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE5_INFLIGHT0_PPAGE0(_ft_,_x_) ((_ft_).u32_352 = (((_ft_).u32_352 & PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE5_INFLIGHT0_PPAGE0(_ft_) ((_ft_).u32_352  >>  ((PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
TE5 opened page0 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PAGE_WOFF      (348U)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PAGE_SHIFT     (0U)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PAGE_CLRMSK    (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE5_INFLIGHT0_PAGE(_ft_,_x_) ((_ft_).u32_348 = (((_ft_).u32_348 & PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE5_INFLIGHT0_PAGE(_ft_) ((_ft_).u32_348  >>  ((PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT0_PAGE_SHIFT)) & 0x000fffffU)
/*
TE4 opened page0 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_UFSTACK_WOFF   (347U)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_UFSTACK_SHIFT  (16U)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_TE4_INFLIGHT0_UFSTACK(_ft_,_x_) ((_ft_).u32_347 = (((_ft_).u32_347 & PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE4_INFLIGHT0_UFSTACK(_ft_) ((_ft_).u32_347  >>  ((PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_UFSTACK_SHIFT)) & 0x00000001U)
/*
TE4 opened page0 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE3_W0_WOFF (346U)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE3_W1_WOFF (347U)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE4_INFLIGHT0_PPAGE3(_ft_,_x_) { ((_ft_).u32_346 = (((_ft_).u32_346 & PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_347 = (((_ft_).u32_347 & PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE4_INFLIGHT0_PPAGE3(_ft_) (((_ft_).u32_346  >>  (20)) | ((IMG_UINT64)((_ft_).u32_347 & 0x0000ffffU ) << (12)))
/*
TE4 opened page0 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE2_W0_WOFF (345U)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE2_W1_WOFF (346U)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE4_INFLIGHT0_PPAGE2(_ft_,_x_) { ((_ft_).u32_345 = (((_ft_).u32_345 & PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_346 = (((_ft_).u32_346 & PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE4_INFLIGHT0_PPAGE2(_ft_) (((_ft_).u32_345  >>  (24)) | ((IMG_UINT64)((_ft_).u32_346 & 0x000fffffU ) << (8)))
/*
TE4 opened page0 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE1_W0_WOFF (344U)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE1_W1_WOFF (345U)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE4_INFLIGHT0_PPAGE1(_ft_,_x_) { ((_ft_).u32_344 = (((_ft_).u32_344 & PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_345 = (((_ft_).u32_345 & PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE4_INFLIGHT0_PPAGE1(_ft_) (((_ft_).u32_344  >>  (28)) | ((IMG_UINT64)((_ft_).u32_345 & 0x00ffffffU ) << (4)))
/*
TE4 opened page0 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE0_WOFF    (344U)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE0_SHIFT   (0U)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE0_CLRMSK  (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE4_INFLIGHT0_PPAGE0(_ft_,_x_) ((_ft_).u32_344 = (((_ft_).u32_344 & PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE4_INFLIGHT0_PPAGE0(_ft_) ((_ft_).u32_344  >>  ((PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
TE4 opened page0 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PAGE_WOFF      (340U)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PAGE_SHIFT     (0U)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PAGE_CLRMSK    (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE4_INFLIGHT0_PAGE(_ft_,_x_) ((_ft_).u32_340 = (((_ft_).u32_340 & PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE4_INFLIGHT0_PAGE(_ft_) ((_ft_).u32_340  >>  ((PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT0_PAGE_SHIFT)) & 0x000fffffU)
/*
TE3 opened page0 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_UFSTACK_WOFF   (339U)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_UFSTACK_SHIFT  (16U)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_TE3_INFLIGHT0_UFSTACK(_ft_,_x_) ((_ft_).u32_339 = (((_ft_).u32_339 & PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE3_INFLIGHT0_UFSTACK(_ft_) ((_ft_).u32_339  >>  ((PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_UFSTACK_SHIFT)) & 0x00000001U)
/*
TE3 opened page0 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE3_W0_WOFF (338U)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE3_W1_WOFF (339U)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE3_INFLIGHT0_PPAGE3(_ft_,_x_) { ((_ft_).u32_338 = (((_ft_).u32_338 & PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_339 = (((_ft_).u32_339 & PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE3_INFLIGHT0_PPAGE3(_ft_) (((_ft_).u32_338  >>  (20)) | ((IMG_UINT64)((_ft_).u32_339 & 0x0000ffffU ) << (12)))
/*
TE3 opened page0 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE2_W0_WOFF (337U)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE2_W1_WOFF (338U)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE3_INFLIGHT0_PPAGE2(_ft_,_x_) { ((_ft_).u32_337 = (((_ft_).u32_337 & PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_338 = (((_ft_).u32_338 & PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE3_INFLIGHT0_PPAGE2(_ft_) (((_ft_).u32_337  >>  (24)) | ((IMG_UINT64)((_ft_).u32_338 & 0x000fffffU ) << (8)))
/*
TE3 opened page0 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE1_W0_WOFF (336U)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE1_W1_WOFF (337U)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE3_INFLIGHT0_PPAGE1(_ft_,_x_) { ((_ft_).u32_336 = (((_ft_).u32_336 & PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_337 = (((_ft_).u32_337 & PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE3_INFLIGHT0_PPAGE1(_ft_) (((_ft_).u32_336  >>  (28)) | ((IMG_UINT64)((_ft_).u32_337 & 0x00ffffffU ) << (4)))
/*
TE3 opened page0 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE0_WOFF    (336U)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE0_SHIFT   (0U)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE0_CLRMSK  (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE3_INFLIGHT0_PPAGE0(_ft_,_x_) ((_ft_).u32_336 = (((_ft_).u32_336 & PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE3_INFLIGHT0_PPAGE0(_ft_) ((_ft_).u32_336  >>  ((PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
TE3 opened page0 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PAGE_WOFF      (332U)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PAGE_SHIFT     (0U)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PAGE_CLRMSK    (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE3_INFLIGHT0_PAGE(_ft_,_x_) ((_ft_).u32_332 = (((_ft_).u32_332 & PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE3_INFLIGHT0_PAGE(_ft_) ((_ft_).u32_332  >>  ((PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT0_PAGE_SHIFT)) & 0x000fffffU)
/*
TE2 opened page0 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_UFSTACK_WOFF   (331U)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_UFSTACK_SHIFT  (16U)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_TE2_INFLIGHT0_UFSTACK(_ft_,_x_) ((_ft_).u32_331 = (((_ft_).u32_331 & PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE2_INFLIGHT0_UFSTACK(_ft_) ((_ft_).u32_331  >>  ((PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_UFSTACK_SHIFT)) & 0x00000001U)
/*
TE2 opened page0 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE3_W0_WOFF (330U)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE3_W1_WOFF (331U)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE2_INFLIGHT0_PPAGE3(_ft_,_x_) { ((_ft_).u32_330 = (((_ft_).u32_330 & PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_331 = (((_ft_).u32_331 & PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE2_INFLIGHT0_PPAGE3(_ft_) (((_ft_).u32_330  >>  (20)) | ((IMG_UINT64)((_ft_).u32_331 & 0x0000ffffU ) << (12)))
/*
TE2 opened page0 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE2_W0_WOFF (329U)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE2_W1_WOFF (330U)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE2_INFLIGHT0_PPAGE2(_ft_,_x_) { ((_ft_).u32_329 = (((_ft_).u32_329 & PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_330 = (((_ft_).u32_330 & PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE2_INFLIGHT0_PPAGE2(_ft_) (((_ft_).u32_329  >>  (24)) | ((IMG_UINT64)((_ft_).u32_330 & 0x000fffffU ) << (8)))
/*
TE2 opened page0 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE1_W0_WOFF (328U)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE1_W1_WOFF (329U)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE2_INFLIGHT0_PPAGE1(_ft_,_x_) { ((_ft_).u32_328 = (((_ft_).u32_328 & PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_329 = (((_ft_).u32_329 & PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE2_INFLIGHT0_PPAGE1(_ft_) (((_ft_).u32_328  >>  (28)) | ((IMG_UINT64)((_ft_).u32_329 & 0x00ffffffU ) << (4)))
/*
TE2 opened page0 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE0_WOFF    (328U)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE0_SHIFT   (0U)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE0_CLRMSK  (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE2_INFLIGHT0_PPAGE0(_ft_,_x_) ((_ft_).u32_328 = (((_ft_).u32_328 & PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE2_INFLIGHT0_PPAGE0(_ft_) ((_ft_).u32_328  >>  ((PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
TE2 opened page0 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PAGE_WOFF      (324U)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PAGE_SHIFT     (0U)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PAGE_CLRMSK    (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE2_INFLIGHT0_PAGE(_ft_,_x_) ((_ft_).u32_324 = (((_ft_).u32_324 & PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE2_INFLIGHT0_PAGE(_ft_) ((_ft_).u32_324  >>  ((PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT0_PAGE_SHIFT)) & 0x000fffffU)
/*
TE1 opened page0 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_UFSTACK_WOFF   (323U)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_UFSTACK_SHIFT  (16U)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_TE1_INFLIGHT0_UFSTACK(_ft_,_x_) ((_ft_).u32_323 = (((_ft_).u32_323 & PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE1_INFLIGHT0_UFSTACK(_ft_) ((_ft_).u32_323  >>  ((PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_UFSTACK_SHIFT)) & 0x00000001U)
/*
TE1 opened page0 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE3_W0_WOFF (322U)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE3_W1_WOFF (323U)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE1_INFLIGHT0_PPAGE3(_ft_,_x_) { ((_ft_).u32_322 = (((_ft_).u32_322 & PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_323 = (((_ft_).u32_323 & PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE1_INFLIGHT0_PPAGE3(_ft_) (((_ft_).u32_322  >>  (20)) | ((IMG_UINT64)((_ft_).u32_323 & 0x0000ffffU ) << (12)))
/*
TE1 opened page0 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE2_W0_WOFF (321U)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE2_W1_WOFF (322U)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE1_INFLIGHT0_PPAGE2(_ft_,_x_) { ((_ft_).u32_321 = (((_ft_).u32_321 & PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_322 = (((_ft_).u32_322 & PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE1_INFLIGHT0_PPAGE2(_ft_) (((_ft_).u32_321  >>  (24)) | ((IMG_UINT64)((_ft_).u32_322 & 0x000fffffU ) << (8)))
/*
TE1 opened page0 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE1_W0_WOFF (320U)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE1_W1_WOFF (321U)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE1_INFLIGHT0_PPAGE1(_ft_,_x_) { ((_ft_).u32_320 = (((_ft_).u32_320 & PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_321 = (((_ft_).u32_321 & PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE1_INFLIGHT0_PPAGE1(_ft_) (((_ft_).u32_320  >>  (28)) | ((IMG_UINT64)((_ft_).u32_321 & 0x00ffffffU ) << (4)))
/*
TE1 opened page0 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE0_WOFF    (320U)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE0_SHIFT   (0U)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE0_CLRMSK  (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE1_INFLIGHT0_PPAGE0(_ft_,_x_) ((_ft_).u32_320 = (((_ft_).u32_320 & PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE1_INFLIGHT0_PPAGE0(_ft_) ((_ft_).u32_320  >>  ((PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
TE1 opened page0 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PAGE_WOFF      (316U)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PAGE_SHIFT     (0U)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PAGE_CLRMSK    (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE1_INFLIGHT0_PAGE(_ft_,_x_) ((_ft_).u32_316 = (((_ft_).u32_316 & PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE1_INFLIGHT0_PAGE(_ft_) ((_ft_).u32_316  >>  ((PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT0_PAGE_SHIFT)) & 0x000fffffU)
/*
TE0 opened page0 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_UFSTACK_WOFF   (315U)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_UFSTACK_SHIFT  (16U)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_TE0_INFLIGHT0_UFSTACK(_ft_,_x_) ((_ft_).u32_315 = (((_ft_).u32_315 & PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE0_INFLIGHT0_UFSTACK(_ft_) ((_ft_).u32_315  >>  ((PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_UFSTACK_SHIFT)) & 0x00000001U)
/*
TE0 opened page0 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE3_W0_WOFF (314U)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE3_W1_WOFF (315U)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE0_INFLIGHT0_PPAGE3(_ft_,_x_) { ((_ft_).u32_314 = (((_ft_).u32_314 & PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_315 = (((_ft_).u32_315 & PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE0_INFLIGHT0_PPAGE3(_ft_) (((_ft_).u32_314  >>  (20)) | ((IMG_UINT64)((_ft_).u32_315 & 0x0000ffffU ) << (12)))
/*
TE0 opened page0 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE2_W0_WOFF (313U)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE2_W1_WOFF (314U)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE0_INFLIGHT0_PPAGE2(_ft_,_x_) { ((_ft_).u32_313 = (((_ft_).u32_313 & PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_314 = (((_ft_).u32_314 & PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE0_INFLIGHT0_PPAGE2(_ft_) (((_ft_).u32_313  >>  (24)) | ((IMG_UINT64)((_ft_).u32_314 & 0x000fffffU ) << (8)))
/*
TE0 opened page0 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE1_W0_WOFF (312U)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE1_W1_WOFF (313U)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE0_INFLIGHT0_PPAGE1(_ft_,_x_) { ((_ft_).u32_312 = (((_ft_).u32_312 & PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_313 = (((_ft_).u32_313 & PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_TE0_INFLIGHT0_PPAGE1(_ft_) (((_ft_).u32_312  >>  (28)) | ((IMG_UINT64)((_ft_).u32_313 & 0x00ffffffU ) << (4)))
/*
TE0 opened page0 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE0_WOFF    (312U)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE0_SHIFT   (0U)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE0_CLRMSK  (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE0_INFLIGHT0_PPAGE0(_ft_,_x_) ((_ft_).u32_312 = (((_ft_).u32_312 & PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE0_INFLIGHT0_PPAGE0(_ft_) ((_ft_).u32_312  >>  ((PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
TE0 opened page0 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PAGE_WOFF      (308U)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PAGE_SHIFT     (0U)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PAGE_CLRMSK    (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_TE0_INFLIGHT0_PAGE(_ft_,_x_) ((_ft_).u32_308 = (((_ft_).u32_308 & PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE0_INFLIGHT0_PAGE(_ft_) ((_ft_).u32_308  >>  ((PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT0_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE7 opened page3 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_UFSTACK_WOFF  (307U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT3_UFSTACK(_ft_,_x_) ((_ft_).u32_307 = (((_ft_).u32_307 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT3_UFSTACK(_ft_) ((_ft_).u32_307  >>  ((PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE7 opened page3 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE3_W0_WOFF (306U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE3_W1_WOFF (307U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT3_PPAGE3(_ft_,_x_) { ((_ft_).u32_306 = (((_ft_).u32_306 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_307 = (((_ft_).u32_307 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT3_PPAGE3(_ft_) (((_ft_).u32_306  >>  (20)) | ((IMG_UINT64)((_ft_).u32_307 & 0x0000ffffU ) << (12)))
/*
VCE7 opened page3 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE2_W0_WOFF (305U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE2_W1_WOFF (306U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT3_PPAGE2(_ft_,_x_) { ((_ft_).u32_305 = (((_ft_).u32_305 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_306 = (((_ft_).u32_306 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT3_PPAGE2(_ft_) (((_ft_).u32_305  >>  (24)) | ((IMG_UINT64)((_ft_).u32_306 & 0x000fffffU ) << (8)))
/*
VCE7 opened page3 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE1_W0_WOFF (304U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE1_W1_WOFF (305U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT3_PPAGE1(_ft_,_x_) { ((_ft_).u32_304 = (((_ft_).u32_304 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_305 = (((_ft_).u32_305 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT3_PPAGE1(_ft_) (((_ft_).u32_304  >>  (28)) | ((IMG_UINT64)((_ft_).u32_305 & 0x00ffffffU ) << (4)))
/*
VCE7 opened page3 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE0_WOFF   (304U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT3_PPAGE0(_ft_,_x_) ((_ft_).u32_304 = (((_ft_).u32_304 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT3_PPAGE0(_ft_) ((_ft_).u32_304  >>  ((PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE7 opened page3 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PAGE_WOFF     (300U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT3_PAGE(_ft_,_x_) ((_ft_).u32_300 = (((_ft_).u32_300 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT3_PAGE(_ft_) ((_ft_).u32_300  >>  ((PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT3_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE7 opened page2 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_UFSTACK_WOFF  (299U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT2_UFSTACK(_ft_,_x_) ((_ft_).u32_299 = (((_ft_).u32_299 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT2_UFSTACK(_ft_) ((_ft_).u32_299  >>  ((PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE7 opened page2 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE3_W0_WOFF (298U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE3_W1_WOFF (299U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT2_PPAGE3(_ft_,_x_) { ((_ft_).u32_298 = (((_ft_).u32_298 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_299 = (((_ft_).u32_299 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT2_PPAGE3(_ft_) (((_ft_).u32_298  >>  (20)) | ((IMG_UINT64)((_ft_).u32_299 & 0x0000ffffU ) << (12)))
/*
VCE7 opened page2 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE2_W0_WOFF (297U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE2_W1_WOFF (298U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT2_PPAGE2(_ft_,_x_) { ((_ft_).u32_297 = (((_ft_).u32_297 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_298 = (((_ft_).u32_298 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT2_PPAGE2(_ft_) (((_ft_).u32_297  >>  (24)) | ((IMG_UINT64)((_ft_).u32_298 & 0x000fffffU ) << (8)))
/*
VCE7 opened page2 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE1_W0_WOFF (296U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE1_W1_WOFF (297U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT2_PPAGE1(_ft_,_x_) { ((_ft_).u32_296 = (((_ft_).u32_296 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_297 = (((_ft_).u32_297 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT2_PPAGE1(_ft_) (((_ft_).u32_296  >>  (28)) | ((IMG_UINT64)((_ft_).u32_297 & 0x00ffffffU ) << (4)))
/*
VCE7 opened page2 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE0_WOFF   (296U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT2_PPAGE0(_ft_,_x_) ((_ft_).u32_296 = (((_ft_).u32_296 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT2_PPAGE0(_ft_) ((_ft_).u32_296  >>  ((PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE7 opened page2 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PAGE_WOFF     (292U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT2_PAGE(_ft_,_x_) ((_ft_).u32_292 = (((_ft_).u32_292 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT2_PAGE(_ft_) ((_ft_).u32_292  >>  ((PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT2_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE7 opened page1 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_UFSTACK_WOFF  (291U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT1_UFSTACK(_ft_,_x_) ((_ft_).u32_291 = (((_ft_).u32_291 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT1_UFSTACK(_ft_) ((_ft_).u32_291  >>  ((PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE7 opened page1 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE3_W0_WOFF (290U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE3_W1_WOFF (291U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT1_PPAGE3(_ft_,_x_) { ((_ft_).u32_290 = (((_ft_).u32_290 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_291 = (((_ft_).u32_291 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT1_PPAGE3(_ft_) (((_ft_).u32_290  >>  (20)) | ((IMG_UINT64)((_ft_).u32_291 & 0x0000ffffU ) << (12)))
/*
VCE7 opened page1 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE2_W0_WOFF (289U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE2_W1_WOFF (290U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT1_PPAGE2(_ft_,_x_) { ((_ft_).u32_289 = (((_ft_).u32_289 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_290 = (((_ft_).u32_290 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT1_PPAGE2(_ft_) (((_ft_).u32_289  >>  (24)) | ((IMG_UINT64)((_ft_).u32_290 & 0x000fffffU ) << (8)))
/*
VCE7 opened page1 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE1_W0_WOFF (288U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE1_W1_WOFF (289U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT1_PPAGE1(_ft_,_x_) { ((_ft_).u32_288 = (((_ft_).u32_288 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_289 = (((_ft_).u32_289 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT1_PPAGE1(_ft_) (((_ft_).u32_288  >>  (28)) | ((IMG_UINT64)((_ft_).u32_289 & 0x00ffffffU ) << (4)))
/*
VCE7 opened page1 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE0_WOFF   (288U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT1_PPAGE0(_ft_,_x_) ((_ft_).u32_288 = (((_ft_).u32_288 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT1_PPAGE0(_ft_) ((_ft_).u32_288  >>  ((PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE7 opened page1 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PAGE_WOFF     (284U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT1_PAGE(_ft_,_x_) ((_ft_).u32_284 = (((_ft_).u32_284 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT1_PAGE(_ft_) ((_ft_).u32_284  >>  ((PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT1_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE7 opened page0 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_UFSTACK_WOFF  (283U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT0_UFSTACK(_ft_,_x_) ((_ft_).u32_283 = (((_ft_).u32_283 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT0_UFSTACK(_ft_) ((_ft_).u32_283  >>  ((PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE7 opened page0 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE3_W0_WOFF (282U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE3_W1_WOFF (283U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT0_PPAGE3(_ft_,_x_) { ((_ft_).u32_282 = (((_ft_).u32_282 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_283 = (((_ft_).u32_283 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT0_PPAGE3(_ft_) (((_ft_).u32_282  >>  (20)) | ((IMG_UINT64)((_ft_).u32_283 & 0x0000ffffU ) << (12)))
/*
VCE7 opened page0 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE2_W0_WOFF (281U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE2_W1_WOFF (282U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT0_PPAGE2(_ft_,_x_) { ((_ft_).u32_281 = (((_ft_).u32_281 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_282 = (((_ft_).u32_282 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT0_PPAGE2(_ft_) (((_ft_).u32_281  >>  (24)) | ((IMG_UINT64)((_ft_).u32_282 & 0x000fffffU ) << (8)))
/*
VCE7 opened page0 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE1_W0_WOFF (280U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE1_W1_WOFF (281U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT0_PPAGE1(_ft_,_x_) { ((_ft_).u32_280 = (((_ft_).u32_280 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_281 = (((_ft_).u32_281 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT0_PPAGE1(_ft_) (((_ft_).u32_280  >>  (28)) | ((IMG_UINT64)((_ft_).u32_281 & 0x00ffffffU ) << (4)))
/*
VCE7 opened page0 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE0_WOFF   (280U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT0_PPAGE0(_ft_,_x_) ((_ft_).u32_280 = (((_ft_).u32_280 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT0_PPAGE0(_ft_) ((_ft_).u32_280  >>  ((PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE7 opened page0 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PAGE_WOFF     (276U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT0_PAGE(_ft_,_x_) ((_ft_).u32_276 = (((_ft_).u32_276 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT0_PAGE(_ft_) ((_ft_).u32_276  >>  ((PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT0_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE6 opened page1 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_UFSTACK_WOFF  (259U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE6_INFLIGHT1_UFSTACK(_ft_,_x_) ((_ft_).u32_259 = (((_ft_).u32_259 & PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE6_INFLIGHT1_UFSTACK(_ft_) ((_ft_).u32_259  >>  ((PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE6 opened page1 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE3_W0_WOFF (258U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE3_W1_WOFF (259U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE6_INFLIGHT1_PPAGE3(_ft_,_x_) { ((_ft_).u32_258 = (((_ft_).u32_258 & PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_259 = (((_ft_).u32_259 & PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE6_INFLIGHT1_PPAGE3(_ft_) (((_ft_).u32_258  >>  (20)) | ((IMG_UINT64)((_ft_).u32_259 & 0x0000ffffU ) << (12)))
/*
VCE6 opened page1 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE2_W0_WOFF (257U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE2_W1_WOFF (258U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE6_INFLIGHT1_PPAGE2(_ft_,_x_) { ((_ft_).u32_257 = (((_ft_).u32_257 & PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_258 = (((_ft_).u32_258 & PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE6_INFLIGHT1_PPAGE2(_ft_) (((_ft_).u32_257  >>  (24)) | ((IMG_UINT64)((_ft_).u32_258 & 0x000fffffU ) << (8)))
/*
VCE6 opened page1 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE1_W0_WOFF (256U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE1_W1_WOFF (257U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE6_INFLIGHT1_PPAGE1(_ft_,_x_) { ((_ft_).u32_256 = (((_ft_).u32_256 & PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_257 = (((_ft_).u32_257 & PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE6_INFLIGHT1_PPAGE1(_ft_) (((_ft_).u32_256  >>  (28)) | ((IMG_UINT64)((_ft_).u32_257 & 0x00ffffffU ) << (4)))
/*
VCE6 opened page1 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE0_WOFF   (256U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE6_INFLIGHT1_PPAGE0(_ft_,_x_) ((_ft_).u32_256 = (((_ft_).u32_256 & PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE6_INFLIGHT1_PPAGE0(_ft_) ((_ft_).u32_256  >>  ((PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE6 opened page1 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PAGE_WOFF     (252U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE6_INFLIGHT1_PAGE(_ft_,_x_) ((_ft_).u32_252 = (((_ft_).u32_252 & PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE6_INFLIGHT1_PAGE(_ft_) ((_ft_).u32_252  >>  ((PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT1_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE6 opened page0 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_UFSTACK_WOFF  (251U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE6_INFLIGHT0_UFSTACK(_ft_,_x_) ((_ft_).u32_251 = (((_ft_).u32_251 & PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE6_INFLIGHT0_UFSTACK(_ft_) ((_ft_).u32_251  >>  ((PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE6 opened page0 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE3_W0_WOFF (250U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE3_W1_WOFF (251U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE6_INFLIGHT0_PPAGE3(_ft_,_x_) { ((_ft_).u32_250 = (((_ft_).u32_250 & PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_251 = (((_ft_).u32_251 & PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE6_INFLIGHT0_PPAGE3(_ft_) (((_ft_).u32_250  >>  (20)) | ((IMG_UINT64)((_ft_).u32_251 & 0x0000ffffU ) << (12)))
/*
VCE6 opened page0 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE2_W0_WOFF (249U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE2_W1_WOFF (250U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE6_INFLIGHT0_PPAGE2(_ft_,_x_) { ((_ft_).u32_249 = (((_ft_).u32_249 & PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_250 = (((_ft_).u32_250 & PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE6_INFLIGHT0_PPAGE2(_ft_) (((_ft_).u32_249  >>  (24)) | ((IMG_UINT64)((_ft_).u32_250 & 0x000fffffU ) << (8)))
/*
VCE6 opened page0 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE1_W0_WOFF (248U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE1_W1_WOFF (249U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE6_INFLIGHT0_PPAGE1(_ft_,_x_) { ((_ft_).u32_248 = (((_ft_).u32_248 & PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_249 = (((_ft_).u32_249 & PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE6_INFLIGHT0_PPAGE1(_ft_) (((_ft_).u32_248  >>  (28)) | ((IMG_UINT64)((_ft_).u32_249 & 0x00ffffffU ) << (4)))
/*
VCE6 opened page0 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE0_WOFF   (248U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE6_INFLIGHT0_PPAGE0(_ft_,_x_) ((_ft_).u32_248 = (((_ft_).u32_248 & PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE6_INFLIGHT0_PPAGE0(_ft_) ((_ft_).u32_248  >>  ((PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE6 opened page0 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PAGE_WOFF     (244U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE6_INFLIGHT0_PAGE(_ft_,_x_) ((_ft_).u32_244 = (((_ft_).u32_244 & PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE6_INFLIGHT0_PAGE(_ft_) ((_ft_).u32_244  >>  ((PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT0_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE5 opened page3 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_UFSTACK_WOFF  (243U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT3_UFSTACK(_ft_,_x_) ((_ft_).u32_243 = (((_ft_).u32_243 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT3_UFSTACK(_ft_) ((_ft_).u32_243  >>  ((PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE5 opened page3 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE3_W0_WOFF (242U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE3_W1_WOFF (243U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT3_PPAGE3(_ft_,_x_) { ((_ft_).u32_242 = (((_ft_).u32_242 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_243 = (((_ft_).u32_243 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT3_PPAGE3(_ft_) (((_ft_).u32_242  >>  (20)) | ((IMG_UINT64)((_ft_).u32_243 & 0x0000ffffU ) << (12)))
/*
VCE5 opened page3 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE2_W0_WOFF (241U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE2_W1_WOFF (242U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT3_PPAGE2(_ft_,_x_) { ((_ft_).u32_241 = (((_ft_).u32_241 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_242 = (((_ft_).u32_242 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT3_PPAGE2(_ft_) (((_ft_).u32_241  >>  (24)) | ((IMG_UINT64)((_ft_).u32_242 & 0x000fffffU ) << (8)))
/*
VCE5 opened page3 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE1_W0_WOFF (240U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE1_W1_WOFF (241U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT3_PPAGE1(_ft_,_x_) { ((_ft_).u32_240 = (((_ft_).u32_240 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_241 = (((_ft_).u32_241 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT3_PPAGE1(_ft_) (((_ft_).u32_240  >>  (28)) | ((IMG_UINT64)((_ft_).u32_241 & 0x00ffffffU ) << (4)))
/*
VCE5 opened page3 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE0_WOFF   (240U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT3_PPAGE0(_ft_,_x_) ((_ft_).u32_240 = (((_ft_).u32_240 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT3_PPAGE0(_ft_) ((_ft_).u32_240  >>  ((PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE5 opened page3 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PAGE_WOFF     (236U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT3_PAGE(_ft_,_x_) ((_ft_).u32_236 = (((_ft_).u32_236 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT3_PAGE(_ft_) ((_ft_).u32_236  >>  ((PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT3_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE5 opened page2 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_UFSTACK_WOFF  (235U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT2_UFSTACK(_ft_,_x_) ((_ft_).u32_235 = (((_ft_).u32_235 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT2_UFSTACK(_ft_) ((_ft_).u32_235  >>  ((PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE5 opened page2 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE3_W0_WOFF (234U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE3_W1_WOFF (235U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT2_PPAGE3(_ft_,_x_) { ((_ft_).u32_234 = (((_ft_).u32_234 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_235 = (((_ft_).u32_235 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT2_PPAGE3(_ft_) (((_ft_).u32_234  >>  (20)) | ((IMG_UINT64)((_ft_).u32_235 & 0x0000ffffU ) << (12)))
/*
VCE5 opened page2 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE2_W0_WOFF (233U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE2_W1_WOFF (234U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT2_PPAGE2(_ft_,_x_) { ((_ft_).u32_233 = (((_ft_).u32_233 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_234 = (((_ft_).u32_234 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT2_PPAGE2(_ft_) (((_ft_).u32_233  >>  (24)) | ((IMG_UINT64)((_ft_).u32_234 & 0x000fffffU ) << (8)))
/*
VCE5 opened page2 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE1_W0_WOFF (232U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE1_W1_WOFF (233U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT2_PPAGE1(_ft_,_x_) { ((_ft_).u32_232 = (((_ft_).u32_232 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_233 = (((_ft_).u32_233 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT2_PPAGE1(_ft_) (((_ft_).u32_232  >>  (28)) | ((IMG_UINT64)((_ft_).u32_233 & 0x00ffffffU ) << (4)))
/*
VCE5 opened page2 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE0_WOFF   (232U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT2_PPAGE0(_ft_,_x_) ((_ft_).u32_232 = (((_ft_).u32_232 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT2_PPAGE0(_ft_) ((_ft_).u32_232  >>  ((PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE5 opened page2 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PAGE_WOFF     (228U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT2_PAGE(_ft_,_x_) ((_ft_).u32_228 = (((_ft_).u32_228 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT2_PAGE(_ft_) ((_ft_).u32_228  >>  ((PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT2_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE5 opened page1 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_UFSTACK_WOFF  (227U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT1_UFSTACK(_ft_,_x_) ((_ft_).u32_227 = (((_ft_).u32_227 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT1_UFSTACK(_ft_) ((_ft_).u32_227  >>  ((PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE5 opened page1 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE3_W0_WOFF (226U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE3_W1_WOFF (227U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT1_PPAGE3(_ft_,_x_) { ((_ft_).u32_226 = (((_ft_).u32_226 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_227 = (((_ft_).u32_227 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT1_PPAGE3(_ft_) (((_ft_).u32_226  >>  (20)) | ((IMG_UINT64)((_ft_).u32_227 & 0x0000ffffU ) << (12)))
/*
VCE5 opened page1 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE2_W0_WOFF (225U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE2_W1_WOFF (226U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT1_PPAGE2(_ft_,_x_) { ((_ft_).u32_225 = (((_ft_).u32_225 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_226 = (((_ft_).u32_226 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT1_PPAGE2(_ft_) (((_ft_).u32_225  >>  (24)) | ((IMG_UINT64)((_ft_).u32_226 & 0x000fffffU ) << (8)))
/*
VCE5 opened page1 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE1_W0_WOFF (224U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE1_W1_WOFF (225U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT1_PPAGE1(_ft_,_x_) { ((_ft_).u32_224 = (((_ft_).u32_224 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_225 = (((_ft_).u32_225 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT1_PPAGE1(_ft_) (((_ft_).u32_224  >>  (28)) | ((IMG_UINT64)((_ft_).u32_225 & 0x00ffffffU ) << (4)))
/*
VCE5 opened page1 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE0_WOFF   (224U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT1_PPAGE0(_ft_,_x_) ((_ft_).u32_224 = (((_ft_).u32_224 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT1_PPAGE0(_ft_) ((_ft_).u32_224  >>  ((PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE5 opened page1 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PAGE_WOFF     (220U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT1_PAGE(_ft_,_x_) ((_ft_).u32_220 = (((_ft_).u32_220 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT1_PAGE(_ft_) ((_ft_).u32_220  >>  ((PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT1_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE5 opened page0 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_UFSTACK_WOFF  (219U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT0_UFSTACK(_ft_,_x_) ((_ft_).u32_219 = (((_ft_).u32_219 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT0_UFSTACK(_ft_) ((_ft_).u32_219  >>  ((PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE5 opened page0 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE3_W0_WOFF (218U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE3_W1_WOFF (219U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT0_PPAGE3(_ft_,_x_) { ((_ft_).u32_218 = (((_ft_).u32_218 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_219 = (((_ft_).u32_219 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT0_PPAGE3(_ft_) (((_ft_).u32_218  >>  (20)) | ((IMG_UINT64)((_ft_).u32_219 & 0x0000ffffU ) << (12)))
/*
VCE5 opened page0 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE2_W0_WOFF (217U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE2_W1_WOFF (218U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT0_PPAGE2(_ft_,_x_) { ((_ft_).u32_217 = (((_ft_).u32_217 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_218 = (((_ft_).u32_218 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT0_PPAGE2(_ft_) (((_ft_).u32_217  >>  (24)) | ((IMG_UINT64)((_ft_).u32_218 & 0x000fffffU ) << (8)))
/*
VCE5 opened page0 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE1_W0_WOFF (216U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE1_W1_WOFF (217U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT0_PPAGE1(_ft_,_x_) { ((_ft_).u32_216 = (((_ft_).u32_216 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_217 = (((_ft_).u32_217 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT0_PPAGE1(_ft_) (((_ft_).u32_216  >>  (28)) | ((IMG_UINT64)((_ft_).u32_217 & 0x00ffffffU ) << (4)))
/*
VCE5 opened page0 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE0_WOFF   (216U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT0_PPAGE0(_ft_,_x_) ((_ft_).u32_216 = (((_ft_).u32_216 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT0_PPAGE0(_ft_) ((_ft_).u32_216  >>  ((PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE5 opened page0 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PAGE_WOFF     (212U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT0_PAGE(_ft_,_x_) ((_ft_).u32_212 = (((_ft_).u32_212 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT0_PAGE(_ft_) ((_ft_).u32_212  >>  ((PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT0_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE4 opened page3 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_UFSTACK_WOFF  (211U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT3_UFSTACK(_ft_,_x_) ((_ft_).u32_211 = (((_ft_).u32_211 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT3_UFSTACK(_ft_) ((_ft_).u32_211  >>  ((PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE4 opened page3 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE3_W0_WOFF (210U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE3_W1_WOFF (211U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT3_PPAGE3(_ft_,_x_) { ((_ft_).u32_210 = (((_ft_).u32_210 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_211 = (((_ft_).u32_211 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT3_PPAGE3(_ft_) (((_ft_).u32_210  >>  (20)) | ((IMG_UINT64)((_ft_).u32_211 & 0x0000ffffU ) << (12)))
/*
VCE4 opened page3 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE2_W0_WOFF (209U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE2_W1_WOFF (210U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT3_PPAGE2(_ft_,_x_) { ((_ft_).u32_209 = (((_ft_).u32_209 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_210 = (((_ft_).u32_210 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT3_PPAGE2(_ft_) (((_ft_).u32_209  >>  (24)) | ((IMG_UINT64)((_ft_).u32_210 & 0x000fffffU ) << (8)))
/*
VCE4 opened page3 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE1_W0_WOFF (208U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE1_W1_WOFF (209U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT3_PPAGE1(_ft_,_x_) { ((_ft_).u32_208 = (((_ft_).u32_208 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_209 = (((_ft_).u32_209 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT3_PPAGE1(_ft_) (((_ft_).u32_208  >>  (28)) | ((IMG_UINT64)((_ft_).u32_209 & 0x00ffffffU ) << (4)))
/*
VCE4 opened page3 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE0_WOFF   (208U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT3_PPAGE0(_ft_,_x_) ((_ft_).u32_208 = (((_ft_).u32_208 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT3_PPAGE0(_ft_) ((_ft_).u32_208  >>  ((PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE4 opened page3 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PAGE_WOFF     (204U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT3_PAGE(_ft_,_x_) ((_ft_).u32_204 = (((_ft_).u32_204 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT3_PAGE(_ft_) ((_ft_).u32_204  >>  ((PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT3_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE4 opened page2 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_UFSTACK_WOFF  (203U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT2_UFSTACK(_ft_,_x_) ((_ft_).u32_203 = (((_ft_).u32_203 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT2_UFSTACK(_ft_) ((_ft_).u32_203  >>  ((PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE4 opened page2 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE3_W0_WOFF (202U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE3_W1_WOFF (203U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT2_PPAGE3(_ft_,_x_) { ((_ft_).u32_202 = (((_ft_).u32_202 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_203 = (((_ft_).u32_203 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT2_PPAGE3(_ft_) (((_ft_).u32_202  >>  (20)) | ((IMG_UINT64)((_ft_).u32_203 & 0x0000ffffU ) << (12)))
/*
VCE4 opened page2 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE2_W0_WOFF (201U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE2_W1_WOFF (202U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT2_PPAGE2(_ft_,_x_) { ((_ft_).u32_201 = (((_ft_).u32_201 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_202 = (((_ft_).u32_202 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT2_PPAGE2(_ft_) (((_ft_).u32_201  >>  (24)) | ((IMG_UINT64)((_ft_).u32_202 & 0x000fffffU ) << (8)))
/*
VCE4 opened page2 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE1_W0_WOFF (200U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE1_W1_WOFF (201U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT2_PPAGE1(_ft_,_x_) { ((_ft_).u32_200 = (((_ft_).u32_200 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_201 = (((_ft_).u32_201 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT2_PPAGE1(_ft_) (((_ft_).u32_200  >>  (28)) | ((IMG_UINT64)((_ft_).u32_201 & 0x00ffffffU ) << (4)))
/*
VCE4 opened page2 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE0_WOFF   (200U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT2_PPAGE0(_ft_,_x_) ((_ft_).u32_200 = (((_ft_).u32_200 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT2_PPAGE0(_ft_) ((_ft_).u32_200  >>  ((PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE4 opened page2 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PAGE_WOFF     (196U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT2_PAGE(_ft_,_x_) ((_ft_).u32_196 = (((_ft_).u32_196 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT2_PAGE(_ft_) ((_ft_).u32_196  >>  ((PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT2_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE4 opened page1 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_UFSTACK_WOFF  (195U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT1_UFSTACK(_ft_,_x_) ((_ft_).u32_195 = (((_ft_).u32_195 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT1_UFSTACK(_ft_) ((_ft_).u32_195  >>  ((PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE4 opened page1 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE3_W0_WOFF (194U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE3_W1_WOFF (195U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT1_PPAGE3(_ft_,_x_) { ((_ft_).u32_194 = (((_ft_).u32_194 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_195 = (((_ft_).u32_195 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT1_PPAGE3(_ft_) (((_ft_).u32_194  >>  (20)) | ((IMG_UINT64)((_ft_).u32_195 & 0x0000ffffU ) << (12)))
/*
VCE4 opened page1 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE2_W0_WOFF (193U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE2_W1_WOFF (194U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT1_PPAGE2(_ft_,_x_) { ((_ft_).u32_193 = (((_ft_).u32_193 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_194 = (((_ft_).u32_194 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT1_PPAGE2(_ft_) (((_ft_).u32_193  >>  (24)) | ((IMG_UINT64)((_ft_).u32_194 & 0x000fffffU ) << (8)))
/*
VCE4 opened page1 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE1_W0_WOFF (192U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE1_W1_WOFF (193U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT1_PPAGE1(_ft_,_x_) { ((_ft_).u32_192 = (((_ft_).u32_192 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_193 = (((_ft_).u32_193 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT1_PPAGE1(_ft_) (((_ft_).u32_192  >>  (28)) | ((IMG_UINT64)((_ft_).u32_193 & 0x00ffffffU ) << (4)))
/*
VCE4 opened page1 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE0_WOFF   (192U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT1_PPAGE0(_ft_,_x_) ((_ft_).u32_192 = (((_ft_).u32_192 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT1_PPAGE0(_ft_) ((_ft_).u32_192  >>  ((PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE4 opened page1 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PAGE_WOFF     (188U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT1_PAGE(_ft_,_x_) ((_ft_).u32_188 = (((_ft_).u32_188 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT1_PAGE(_ft_) ((_ft_).u32_188  >>  ((PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT1_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE4 opened page0 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_UFSTACK_WOFF  (187U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT0_UFSTACK(_ft_,_x_) ((_ft_).u32_187 = (((_ft_).u32_187 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT0_UFSTACK(_ft_) ((_ft_).u32_187  >>  ((PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE4 opened page0 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE3_W0_WOFF (186U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE3_W1_WOFF (187U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT0_PPAGE3(_ft_,_x_) { ((_ft_).u32_186 = (((_ft_).u32_186 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_187 = (((_ft_).u32_187 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT0_PPAGE3(_ft_) (((_ft_).u32_186  >>  (20)) | ((IMG_UINT64)((_ft_).u32_187 & 0x0000ffffU ) << (12)))
/*
VCE4 opened page0 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE2_W0_WOFF (185U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE2_W1_WOFF (186U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT0_PPAGE2(_ft_,_x_) { ((_ft_).u32_185 = (((_ft_).u32_185 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_186 = (((_ft_).u32_186 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT0_PPAGE2(_ft_) (((_ft_).u32_185  >>  (24)) | ((IMG_UINT64)((_ft_).u32_186 & 0x000fffffU ) << (8)))
/*
VCE4 opened page0 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE1_W0_WOFF (184U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE1_W1_WOFF (185U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT0_PPAGE1(_ft_,_x_) { ((_ft_).u32_184 = (((_ft_).u32_184 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_185 = (((_ft_).u32_185 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT0_PPAGE1(_ft_) (((_ft_).u32_184  >>  (28)) | ((IMG_UINT64)((_ft_).u32_185 & 0x00ffffffU ) << (4)))
/*
VCE4 opened page0 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE0_WOFF   (184U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT0_PPAGE0(_ft_,_x_) ((_ft_).u32_184 = (((_ft_).u32_184 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT0_PPAGE0(_ft_) ((_ft_).u32_184  >>  ((PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE4 opened page0 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PAGE_WOFF     (180U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT0_PAGE(_ft_,_x_) ((_ft_).u32_180 = (((_ft_).u32_180 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT0_PAGE(_ft_) ((_ft_).u32_180  >>  ((PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT0_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE3 opened page3 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_UFSTACK_WOFF  (179U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT3_UFSTACK(_ft_,_x_) ((_ft_).u32_179 = (((_ft_).u32_179 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT3_UFSTACK(_ft_) ((_ft_).u32_179  >>  ((PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE3 opened page3 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE3_W0_WOFF (178U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE3_W1_WOFF (179U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT3_PPAGE3(_ft_,_x_) { ((_ft_).u32_178 = (((_ft_).u32_178 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_179 = (((_ft_).u32_179 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT3_PPAGE3(_ft_) (((_ft_).u32_178  >>  (20)) | ((IMG_UINT64)((_ft_).u32_179 & 0x0000ffffU ) << (12)))
/*
VCE3 opened page3 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE2_W0_WOFF (177U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE2_W1_WOFF (178U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT3_PPAGE2(_ft_,_x_) { ((_ft_).u32_177 = (((_ft_).u32_177 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_178 = (((_ft_).u32_178 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT3_PPAGE2(_ft_) (((_ft_).u32_177  >>  (24)) | ((IMG_UINT64)((_ft_).u32_178 & 0x000fffffU ) << (8)))
/*
VCE3 opened page3 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE1_W0_WOFF (176U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE1_W1_WOFF (177U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT3_PPAGE1(_ft_,_x_) { ((_ft_).u32_176 = (((_ft_).u32_176 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_177 = (((_ft_).u32_177 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT3_PPAGE1(_ft_) (((_ft_).u32_176  >>  (28)) | ((IMG_UINT64)((_ft_).u32_177 & 0x00ffffffU ) << (4)))
/*
VCE3 opened page3 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE0_WOFF   (176U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT3_PPAGE0(_ft_,_x_) ((_ft_).u32_176 = (((_ft_).u32_176 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT3_PPAGE0(_ft_) ((_ft_).u32_176  >>  ((PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE3 opened page3 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PAGE_WOFF     (172U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT3_PAGE(_ft_,_x_) ((_ft_).u32_172 = (((_ft_).u32_172 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT3_PAGE(_ft_) ((_ft_).u32_172  >>  ((PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT3_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE3 opened page2 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_UFSTACK_WOFF  (171U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT2_UFSTACK(_ft_,_x_) ((_ft_).u32_171 = (((_ft_).u32_171 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT2_UFSTACK(_ft_) ((_ft_).u32_171  >>  ((PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE3 opened page2 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE3_W0_WOFF (170U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE3_W1_WOFF (171U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT2_PPAGE3(_ft_,_x_) { ((_ft_).u32_170 = (((_ft_).u32_170 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_171 = (((_ft_).u32_171 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT2_PPAGE3(_ft_) (((_ft_).u32_170  >>  (20)) | ((IMG_UINT64)((_ft_).u32_171 & 0x0000ffffU ) << (12)))
/*
VCE3 opened page2 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE2_W0_WOFF (169U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE2_W1_WOFF (170U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT2_PPAGE2(_ft_,_x_) { ((_ft_).u32_169 = (((_ft_).u32_169 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_170 = (((_ft_).u32_170 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT2_PPAGE2(_ft_) (((_ft_).u32_169  >>  (24)) | ((IMG_UINT64)((_ft_).u32_170 & 0x000fffffU ) << (8)))
/*
VCE3 opened page2 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE1_W0_WOFF (168U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE1_W1_WOFF (169U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT2_PPAGE1(_ft_,_x_) { ((_ft_).u32_168 = (((_ft_).u32_168 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_169 = (((_ft_).u32_169 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT2_PPAGE1(_ft_) (((_ft_).u32_168  >>  (28)) | ((IMG_UINT64)((_ft_).u32_169 & 0x00ffffffU ) << (4)))
/*
VCE3 opened page2 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE0_WOFF   (168U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT2_PPAGE0(_ft_,_x_) ((_ft_).u32_168 = (((_ft_).u32_168 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT2_PPAGE0(_ft_) ((_ft_).u32_168  >>  ((PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE3 opened page2 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PAGE_WOFF     (164U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT2_PAGE(_ft_,_x_) ((_ft_).u32_164 = (((_ft_).u32_164 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT2_PAGE(_ft_) ((_ft_).u32_164  >>  ((PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT2_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE3 opened page1 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_UFSTACK_WOFF  (163U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT1_UFSTACK(_ft_,_x_) ((_ft_).u32_163 = (((_ft_).u32_163 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT1_UFSTACK(_ft_) ((_ft_).u32_163  >>  ((PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE3 opened page1 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE3_W0_WOFF (162U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE3_W1_WOFF (163U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT1_PPAGE3(_ft_,_x_) { ((_ft_).u32_162 = (((_ft_).u32_162 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_163 = (((_ft_).u32_163 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT1_PPAGE3(_ft_) (((_ft_).u32_162  >>  (20)) | ((IMG_UINT64)((_ft_).u32_163 & 0x0000ffffU ) << (12)))
/*
VCE3 opened page1 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE2_W0_WOFF (161U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE2_W1_WOFF (162U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT1_PPAGE2(_ft_,_x_) { ((_ft_).u32_161 = (((_ft_).u32_161 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_162 = (((_ft_).u32_162 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT1_PPAGE2(_ft_) (((_ft_).u32_161  >>  (24)) | ((IMG_UINT64)((_ft_).u32_162 & 0x000fffffU ) << (8)))
/*
VCE3 opened page1 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE1_W0_WOFF (160U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE1_W1_WOFF (161U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT1_PPAGE1(_ft_,_x_) { ((_ft_).u32_160 = (((_ft_).u32_160 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_161 = (((_ft_).u32_161 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT1_PPAGE1(_ft_) (((_ft_).u32_160  >>  (28)) | ((IMG_UINT64)((_ft_).u32_161 & 0x00ffffffU ) << (4)))
/*
VCE3 opened page1 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE0_WOFF   (160U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT1_PPAGE0(_ft_,_x_) ((_ft_).u32_160 = (((_ft_).u32_160 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT1_PPAGE0(_ft_) ((_ft_).u32_160  >>  ((PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE3 opened page1 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PAGE_WOFF     (156U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT1_PAGE(_ft_,_x_) ((_ft_).u32_156 = (((_ft_).u32_156 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT1_PAGE(_ft_) ((_ft_).u32_156  >>  ((PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT1_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE3 opened page0 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_UFSTACK_WOFF  (155U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT0_UFSTACK(_ft_,_x_) ((_ft_).u32_155 = (((_ft_).u32_155 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT0_UFSTACK(_ft_) ((_ft_).u32_155  >>  ((PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE3 opened page0 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE3_W0_WOFF (154U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE3_W1_WOFF (155U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT0_PPAGE3(_ft_,_x_) { ((_ft_).u32_154 = (((_ft_).u32_154 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_155 = (((_ft_).u32_155 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT0_PPAGE3(_ft_) (((_ft_).u32_154  >>  (20)) | ((IMG_UINT64)((_ft_).u32_155 & 0x0000ffffU ) << (12)))
/*
VCE3 opened page0 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE2_W0_WOFF (153U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE2_W1_WOFF (154U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT0_PPAGE2(_ft_,_x_) { ((_ft_).u32_153 = (((_ft_).u32_153 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_154 = (((_ft_).u32_154 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT0_PPAGE2(_ft_) (((_ft_).u32_153  >>  (24)) | ((IMG_UINT64)((_ft_).u32_154 & 0x000fffffU ) << (8)))
/*
VCE3 opened page0 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE1_W0_WOFF (152U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE1_W1_WOFF (153U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT0_PPAGE1(_ft_,_x_) { ((_ft_).u32_152 = (((_ft_).u32_152 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_153 = (((_ft_).u32_153 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT0_PPAGE1(_ft_) (((_ft_).u32_152  >>  (28)) | ((IMG_UINT64)((_ft_).u32_153 & 0x00ffffffU ) << (4)))
/*
VCE3 opened page0 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE0_WOFF   (152U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT0_PPAGE0(_ft_,_x_) ((_ft_).u32_152 = (((_ft_).u32_152 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT0_PPAGE0(_ft_) ((_ft_).u32_152  >>  ((PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE3 opened page0 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PAGE_WOFF     (148U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT0_PAGE(_ft_,_x_) ((_ft_).u32_148 = (((_ft_).u32_148 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT0_PAGE(_ft_) ((_ft_).u32_148  >>  ((PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT0_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE2 opened page3 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_UFSTACK_WOFF  (147U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT3_UFSTACK(_ft_,_x_) ((_ft_).u32_147 = (((_ft_).u32_147 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT3_UFSTACK(_ft_) ((_ft_).u32_147  >>  ((PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE2 opened page3 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE3_W0_WOFF (146U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE3_W1_WOFF (147U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT3_PPAGE3(_ft_,_x_) { ((_ft_).u32_146 = (((_ft_).u32_146 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_147 = (((_ft_).u32_147 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT3_PPAGE3(_ft_) (((_ft_).u32_146  >>  (20)) | ((IMG_UINT64)((_ft_).u32_147 & 0x0000ffffU ) << (12)))
/*
VCE2 opened page3 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE2_W0_WOFF (145U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE2_W1_WOFF (146U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT3_PPAGE2(_ft_,_x_) { ((_ft_).u32_145 = (((_ft_).u32_145 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_146 = (((_ft_).u32_146 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT3_PPAGE2(_ft_) (((_ft_).u32_145  >>  (24)) | ((IMG_UINT64)((_ft_).u32_146 & 0x000fffffU ) << (8)))
/*
VCE2 opened page3 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE1_W0_WOFF (144U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE1_W1_WOFF (145U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT3_PPAGE1(_ft_,_x_) { ((_ft_).u32_144 = (((_ft_).u32_144 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_145 = (((_ft_).u32_145 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT3_PPAGE1(_ft_) (((_ft_).u32_144  >>  (28)) | ((IMG_UINT64)((_ft_).u32_145 & 0x00ffffffU ) << (4)))
/*
VCE2 opened page3 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE0_WOFF   (144U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT3_PPAGE0(_ft_,_x_) ((_ft_).u32_144 = (((_ft_).u32_144 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT3_PPAGE0(_ft_) ((_ft_).u32_144  >>  ((PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE2 opened page3 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PAGE_WOFF     (140U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT3_PAGE(_ft_,_x_) ((_ft_).u32_140 = (((_ft_).u32_140 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT3_PAGE(_ft_) ((_ft_).u32_140  >>  ((PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT3_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE2 opened page2 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_UFSTACK_WOFF  (139U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT2_UFSTACK(_ft_,_x_) ((_ft_).u32_139 = (((_ft_).u32_139 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT2_UFSTACK(_ft_) ((_ft_).u32_139  >>  ((PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE2 opened page2 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE3_W0_WOFF (138U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE3_W1_WOFF (139U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT2_PPAGE3(_ft_,_x_) { ((_ft_).u32_138 = (((_ft_).u32_138 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_139 = (((_ft_).u32_139 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT2_PPAGE3(_ft_) (((_ft_).u32_138  >>  (20)) | ((IMG_UINT64)((_ft_).u32_139 & 0x0000ffffU ) << (12)))
/*
VCE2 opened page2 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE2_W0_WOFF (137U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE2_W1_WOFF (138U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT2_PPAGE2(_ft_,_x_) { ((_ft_).u32_137 = (((_ft_).u32_137 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_138 = (((_ft_).u32_138 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT2_PPAGE2(_ft_) (((_ft_).u32_137  >>  (24)) | ((IMG_UINT64)((_ft_).u32_138 & 0x000fffffU ) << (8)))
/*
VCE2 opened page2 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE1_W0_WOFF (136U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE1_W1_WOFF (137U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT2_PPAGE1(_ft_,_x_) { ((_ft_).u32_136 = (((_ft_).u32_136 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_137 = (((_ft_).u32_137 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT2_PPAGE1(_ft_) (((_ft_).u32_136  >>  (28)) | ((IMG_UINT64)((_ft_).u32_137 & 0x00ffffffU ) << (4)))
/*
VCE2 opened page2 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE0_WOFF   (136U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT2_PPAGE0(_ft_,_x_) ((_ft_).u32_136 = (((_ft_).u32_136 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT2_PPAGE0(_ft_) ((_ft_).u32_136  >>  ((PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE2 opened page2 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PAGE_WOFF     (132U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT2_PAGE(_ft_,_x_) ((_ft_).u32_132 = (((_ft_).u32_132 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT2_PAGE(_ft_) ((_ft_).u32_132  >>  ((PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT2_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE2 opened page1 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_UFSTACK_WOFF  (131U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT1_UFSTACK(_ft_,_x_) ((_ft_).u32_131 = (((_ft_).u32_131 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT1_UFSTACK(_ft_) ((_ft_).u32_131  >>  ((PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE2 opened page1 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE3_W0_WOFF (130U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE3_W1_WOFF (131U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT1_PPAGE3(_ft_,_x_) { ((_ft_).u32_130 = (((_ft_).u32_130 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_131 = (((_ft_).u32_131 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT1_PPAGE3(_ft_) (((_ft_).u32_130  >>  (20)) | ((IMG_UINT64)((_ft_).u32_131 & 0x0000ffffU ) << (12)))
/*
VCE2 opened page1 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE2_W0_WOFF (129U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE2_W1_WOFF (130U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT1_PPAGE2(_ft_,_x_) { ((_ft_).u32_129 = (((_ft_).u32_129 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_130 = (((_ft_).u32_130 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT1_PPAGE2(_ft_) (((_ft_).u32_129  >>  (24)) | ((IMG_UINT64)((_ft_).u32_130 & 0x000fffffU ) << (8)))
/*
VCE2 opened page1 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE1_W0_WOFF (128U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE1_W1_WOFF (129U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT1_PPAGE1(_ft_,_x_) { ((_ft_).u32_128 = (((_ft_).u32_128 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_129 = (((_ft_).u32_129 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT1_PPAGE1(_ft_) (((_ft_).u32_128  >>  (28)) | ((IMG_UINT64)((_ft_).u32_129 & 0x00ffffffU ) << (4)))
/*
VCE2 opened page1 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE0_WOFF   (128U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT1_PPAGE0(_ft_,_x_) ((_ft_).u32_128 = (((_ft_).u32_128 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT1_PPAGE0(_ft_) ((_ft_).u32_128  >>  ((PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE2 opened page1 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PAGE_WOFF     (124U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT1_PAGE(_ft_,_x_) ((_ft_).u32_124 = (((_ft_).u32_124 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT1_PAGE(_ft_) ((_ft_).u32_124  >>  ((PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT1_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE2 opened page0 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_UFSTACK_WOFF  (123U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT0_UFSTACK(_ft_,_x_) ((_ft_).u32_123 = (((_ft_).u32_123 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT0_UFSTACK(_ft_) ((_ft_).u32_123  >>  ((PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE2 opened page0 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE3_W0_WOFF (122U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE3_W1_WOFF (123U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT0_PPAGE3(_ft_,_x_) { ((_ft_).u32_122 = (((_ft_).u32_122 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_123 = (((_ft_).u32_123 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT0_PPAGE3(_ft_) (((_ft_).u32_122  >>  (20)) | ((IMG_UINT64)((_ft_).u32_123 & 0x0000ffffU ) << (12)))
/*
VCE2 opened page0 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE2_W0_WOFF (121U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE2_W1_WOFF (122U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT0_PPAGE2(_ft_,_x_) { ((_ft_).u32_121 = (((_ft_).u32_121 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_122 = (((_ft_).u32_122 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT0_PPAGE2(_ft_) (((_ft_).u32_121  >>  (24)) | ((IMG_UINT64)((_ft_).u32_122 & 0x000fffffU ) << (8)))
/*
VCE2 opened page0 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE1_W0_WOFF (120U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE1_W1_WOFF (121U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT0_PPAGE1(_ft_,_x_) { ((_ft_).u32_120 = (((_ft_).u32_120 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_121 = (((_ft_).u32_121 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT0_PPAGE1(_ft_) (((_ft_).u32_120  >>  (28)) | ((IMG_UINT64)((_ft_).u32_121 & 0x00ffffffU ) << (4)))
/*
VCE2 opened page0 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE0_WOFF   (120U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT0_PPAGE0(_ft_,_x_) ((_ft_).u32_120 = (((_ft_).u32_120 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT0_PPAGE0(_ft_) ((_ft_).u32_120  >>  ((PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE2 opened page0 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PAGE_WOFF     (116U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT0_PAGE(_ft_,_x_) ((_ft_).u32_116 = (((_ft_).u32_116 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT0_PAGE(_ft_) ((_ft_).u32_116  >>  ((PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT0_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE1 opened page3 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_UFSTACK_WOFF  (115U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT3_UFSTACK(_ft_,_x_) ((_ft_).u32_115 = (((_ft_).u32_115 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT3_UFSTACK(_ft_) ((_ft_).u32_115  >>  ((PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE1 opened page3 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE3_W0_WOFF (114U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE3_W1_WOFF (115U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT3_PPAGE3(_ft_,_x_) { ((_ft_).u32_114 = (((_ft_).u32_114 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_115 = (((_ft_).u32_115 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT3_PPAGE3(_ft_) (((_ft_).u32_114  >>  (20)) | ((IMG_UINT64)((_ft_).u32_115 & 0x0000ffffU ) << (12)))
/*
VCE1 opened page3 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE2_W0_WOFF (113U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE2_W1_WOFF (114U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT3_PPAGE2(_ft_,_x_) { ((_ft_).u32_113 = (((_ft_).u32_113 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_114 = (((_ft_).u32_114 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT3_PPAGE2(_ft_) (((_ft_).u32_113  >>  (24)) | ((IMG_UINT64)((_ft_).u32_114 & 0x000fffffU ) << (8)))
/*
VCE1 opened page3 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE1_W0_WOFF (112U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE1_W1_WOFF (113U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT3_PPAGE1(_ft_,_x_) { ((_ft_).u32_112 = (((_ft_).u32_112 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_113 = (((_ft_).u32_113 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT3_PPAGE1(_ft_) (((_ft_).u32_112  >>  (28)) | ((IMG_UINT64)((_ft_).u32_113 & 0x00ffffffU ) << (4)))
/*
VCE1 opened page3 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE0_WOFF   (112U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT3_PPAGE0(_ft_,_x_) ((_ft_).u32_112 = (((_ft_).u32_112 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT3_PPAGE0(_ft_) ((_ft_).u32_112  >>  ((PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE1 opened page3 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PAGE_WOFF     (108U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT3_PAGE(_ft_,_x_) ((_ft_).u32_108 = (((_ft_).u32_108 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT3_PAGE(_ft_) ((_ft_).u32_108  >>  ((PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT3_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE1 opened page2 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_UFSTACK_WOFF  (107U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT2_UFSTACK(_ft_,_x_) ((_ft_).u32_107 = (((_ft_).u32_107 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT2_UFSTACK(_ft_) ((_ft_).u32_107  >>  ((PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE1 opened page2 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE3_W0_WOFF (106U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE3_W1_WOFF (107U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT2_PPAGE3(_ft_,_x_) { ((_ft_).u32_106 = (((_ft_).u32_106 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_107 = (((_ft_).u32_107 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT2_PPAGE3(_ft_) (((_ft_).u32_106  >>  (20)) | ((IMG_UINT64)((_ft_).u32_107 & 0x0000ffffU ) << (12)))
/*
VCE1 opened page2 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE2_W0_WOFF (105U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE2_W1_WOFF (106U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT2_PPAGE2(_ft_,_x_) { ((_ft_).u32_105 = (((_ft_).u32_105 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_106 = (((_ft_).u32_106 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT2_PPAGE2(_ft_) (((_ft_).u32_105  >>  (24)) | ((IMG_UINT64)((_ft_).u32_106 & 0x000fffffU ) << (8)))
/*
VCE1 opened page2 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE1_W0_WOFF (104U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE1_W1_WOFF (105U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT2_PPAGE1(_ft_,_x_) { ((_ft_).u32_104 = (((_ft_).u32_104 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_105 = (((_ft_).u32_105 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT2_PPAGE1(_ft_) (((_ft_).u32_104  >>  (28)) | ((IMG_UINT64)((_ft_).u32_105 & 0x00ffffffU ) << (4)))
/*
VCE1 opened page2 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE0_WOFF   (104U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT2_PPAGE0(_ft_,_x_) ((_ft_).u32_104 = (((_ft_).u32_104 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT2_PPAGE0(_ft_) ((_ft_).u32_104  >>  ((PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE1 opened page2 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PAGE_WOFF     (100U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT2_PAGE(_ft_,_x_) ((_ft_).u32_100 = (((_ft_).u32_100 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT2_PAGE(_ft_) ((_ft_).u32_100  >>  ((PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT2_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE1 opened page1 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_UFSTACK_WOFF  (99U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT1_UFSTACK(_ft_,_x_) ((_ft_).u32_99 = (((_ft_).u32_99 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT1_UFSTACK(_ft_) ((_ft_).u32_99  >>  ((PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE1 opened page1 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE3_W0_WOFF (98U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE3_W1_WOFF (99U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT1_PPAGE3(_ft_,_x_) { ((_ft_).u32_98 = (((_ft_).u32_98 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_99 = (((_ft_).u32_99 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT1_PPAGE3(_ft_) (((_ft_).u32_98  >>  (20)) | ((IMG_UINT64)((_ft_).u32_99 & 0x0000ffffU ) << (12)))
/*
VCE1 opened page1 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE2_W0_WOFF (97U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE2_W1_WOFF (98U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT1_PPAGE2(_ft_,_x_) { ((_ft_).u32_97 = (((_ft_).u32_97 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_98 = (((_ft_).u32_98 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT1_PPAGE2(_ft_) (((_ft_).u32_97  >>  (24)) | ((IMG_UINT64)((_ft_).u32_98 & 0x000fffffU ) << (8)))
/*
VCE1 opened page1 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE1_W0_WOFF (96U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE1_W1_WOFF (97U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT1_PPAGE1(_ft_,_x_) { ((_ft_).u32_96 = (((_ft_).u32_96 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_97 = (((_ft_).u32_97 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT1_PPAGE1(_ft_) (((_ft_).u32_96  >>  (28)) | ((IMG_UINT64)((_ft_).u32_97 & 0x00ffffffU ) << (4)))
/*
VCE1 opened page1 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE0_WOFF   (96U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT1_PPAGE0(_ft_,_x_) ((_ft_).u32_96 = (((_ft_).u32_96 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT1_PPAGE0(_ft_) ((_ft_).u32_96  >>  ((PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE1 opened page1 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PAGE_WOFF     (92U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT1_PAGE(_ft_,_x_) ((_ft_).u32_92 = (((_ft_).u32_92 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT1_PAGE(_ft_) ((_ft_).u32_92  >>  ((PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT1_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE1 opened page0 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_UFSTACK_WOFF  (91U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT0_UFSTACK(_ft_,_x_) ((_ft_).u32_91 = (((_ft_).u32_91 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT0_UFSTACK(_ft_) ((_ft_).u32_91  >>  ((PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE1 opened page0 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE3_W0_WOFF (90U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE3_W1_WOFF (91U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT0_PPAGE3(_ft_,_x_) { ((_ft_).u32_90 = (((_ft_).u32_90 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_91 = (((_ft_).u32_91 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT0_PPAGE3(_ft_) (((_ft_).u32_90  >>  (20)) | ((IMG_UINT64)((_ft_).u32_91 & 0x0000ffffU ) << (12)))
/*
VCE1 opened page0 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE2_W0_WOFF (89U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE2_W1_WOFF (90U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT0_PPAGE2(_ft_,_x_) { ((_ft_).u32_89 = (((_ft_).u32_89 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_90 = (((_ft_).u32_90 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT0_PPAGE2(_ft_) (((_ft_).u32_89  >>  (24)) | ((IMG_UINT64)((_ft_).u32_90 & 0x000fffffU ) << (8)))
/*
VCE1 opened page0 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE1_W0_WOFF (88U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE1_W1_WOFF (89U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT0_PPAGE1(_ft_,_x_) { ((_ft_).u32_88 = (((_ft_).u32_88 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_89 = (((_ft_).u32_89 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT0_PPAGE1(_ft_) (((_ft_).u32_88  >>  (28)) | ((IMG_UINT64)((_ft_).u32_89 & 0x00ffffffU ) << (4)))
/*
VCE1 opened page0 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE0_WOFF   (88U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT0_PPAGE0(_ft_,_x_) ((_ft_).u32_88 = (((_ft_).u32_88 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT0_PPAGE0(_ft_) ((_ft_).u32_88  >>  ((PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE1 opened page0 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PAGE_WOFF     (84U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT0_PAGE(_ft_,_x_) ((_ft_).u32_84 = (((_ft_).u32_84 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT0_PAGE(_ft_) ((_ft_).u32_84  >>  ((PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT0_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE0 opened page3 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_UFSTACK_WOFF  (83U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT3_UFSTACK(_ft_,_x_) ((_ft_).u32_83 = (((_ft_).u32_83 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT3_UFSTACK(_ft_) ((_ft_).u32_83  >>  ((PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE0 opened page3 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE3_W0_WOFF (82U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE3_W1_WOFF (83U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT3_PPAGE3(_ft_,_x_) { ((_ft_).u32_82 = (((_ft_).u32_82 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_83 = (((_ft_).u32_83 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT3_PPAGE3(_ft_) (((_ft_).u32_82  >>  (20)) | ((IMG_UINT64)((_ft_).u32_83 & 0x0000ffffU ) << (12)))
/*
VCE0 opened page3 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE2_W0_WOFF (81U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE2_W1_WOFF (82U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT3_PPAGE2(_ft_,_x_) { ((_ft_).u32_81 = (((_ft_).u32_81 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_82 = (((_ft_).u32_82 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT3_PPAGE2(_ft_) (((_ft_).u32_81  >>  (24)) | ((IMG_UINT64)((_ft_).u32_82 & 0x000fffffU ) << (8)))
/*
VCE0 opened page3 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE1_W0_WOFF (80U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE1_W1_WOFF (81U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT3_PPAGE1(_ft_,_x_) { ((_ft_).u32_80 = (((_ft_).u32_80 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_81 = (((_ft_).u32_81 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT3_PPAGE1(_ft_) (((_ft_).u32_80  >>  (28)) | ((IMG_UINT64)((_ft_).u32_81 & 0x00ffffffU ) << (4)))
/*
VCE0 opened page3 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE0_WOFF   (80U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT3_PPAGE0(_ft_,_x_) ((_ft_).u32_80 = (((_ft_).u32_80 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT3_PPAGE0(_ft_) ((_ft_).u32_80  >>  ((PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE0 opened page3 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PAGE_WOFF     (76U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT3_PAGE(_ft_,_x_) ((_ft_).u32_76 = (((_ft_).u32_76 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT3_PAGE(_ft_) ((_ft_).u32_76  >>  ((PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT3_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE0 opened page2 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_UFSTACK_WOFF  (75U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT2_UFSTACK(_ft_,_x_) ((_ft_).u32_75 = (((_ft_).u32_75 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT2_UFSTACK(_ft_) ((_ft_).u32_75  >>  ((PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE0 opened page2 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE3_W0_WOFF (74U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE3_W1_WOFF (75U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT2_PPAGE3(_ft_,_x_) { ((_ft_).u32_74 = (((_ft_).u32_74 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_75 = (((_ft_).u32_75 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT2_PPAGE3(_ft_) (((_ft_).u32_74  >>  (20)) | ((IMG_UINT64)((_ft_).u32_75 & 0x0000ffffU ) << (12)))
/*
VCE0 opened page2 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE2_W0_WOFF (73U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE2_W1_WOFF (74U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT2_PPAGE2(_ft_,_x_) { ((_ft_).u32_73 = (((_ft_).u32_73 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_74 = (((_ft_).u32_74 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT2_PPAGE2(_ft_) (((_ft_).u32_73  >>  (24)) | ((IMG_UINT64)((_ft_).u32_74 & 0x000fffffU ) << (8)))
/*
VCE0 opened page2 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE1_W0_WOFF (72U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE1_W1_WOFF (73U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT2_PPAGE1(_ft_,_x_) { ((_ft_).u32_72 = (((_ft_).u32_72 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_73 = (((_ft_).u32_73 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT2_PPAGE1(_ft_) (((_ft_).u32_72  >>  (28)) | ((IMG_UINT64)((_ft_).u32_73 & 0x00ffffffU ) << (4)))
/*
VCE0 opened page2 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE0_WOFF   (72U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT2_PPAGE0(_ft_,_x_) ((_ft_).u32_72 = (((_ft_).u32_72 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT2_PPAGE0(_ft_) ((_ft_).u32_72  >>  ((PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE0 opened page2 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PAGE_WOFF     (68U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT2_PAGE(_ft_,_x_) ((_ft_).u32_68 = (((_ft_).u32_68 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT2_PAGE(_ft_) ((_ft_).u32_68  >>  ((PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT2_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE0 opened page1 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_UFSTACK_WOFF  (67U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT1_UFSTACK(_ft_,_x_) ((_ft_).u32_67 = (((_ft_).u32_67 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT1_UFSTACK(_ft_) ((_ft_).u32_67  >>  ((PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE0 opened page1 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE3_W0_WOFF (66U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE3_W1_WOFF (67U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT1_PPAGE3(_ft_,_x_) { ((_ft_).u32_66 = (((_ft_).u32_66 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_67 = (((_ft_).u32_67 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT1_PPAGE3(_ft_) (((_ft_).u32_66  >>  (20)) | ((IMG_UINT64)((_ft_).u32_67 & 0x0000ffffU ) << (12)))
/*
VCE0 opened page1 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE2_W0_WOFF (65U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE2_W1_WOFF (66U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT1_PPAGE2(_ft_,_x_) { ((_ft_).u32_65 = (((_ft_).u32_65 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_66 = (((_ft_).u32_66 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT1_PPAGE2(_ft_) (((_ft_).u32_65  >>  (24)) | ((IMG_UINT64)((_ft_).u32_66 & 0x000fffffU ) << (8)))
/*
VCE0 opened page1 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE1_W0_WOFF (64U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE1_W1_WOFF (65U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT1_PPAGE1(_ft_,_x_) { ((_ft_).u32_64 = (((_ft_).u32_64 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_65 = (((_ft_).u32_65 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT1_PPAGE1(_ft_) (((_ft_).u32_64  >>  (28)) | ((IMG_UINT64)((_ft_).u32_65 & 0x00ffffffU ) << (4)))
/*
VCE0 opened page1 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE0_WOFF   (64U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT1_PPAGE0(_ft_,_x_) ((_ft_).u32_64 = (((_ft_).u32_64 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT1_PPAGE0(_ft_) ((_ft_).u32_64  >>  ((PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE0 opened page1 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PAGE_WOFF     (60U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT1_PAGE(_ft_,_x_) ((_ft_).u32_60 = (((_ft_).u32_60 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT1_PAGE(_ft_) ((_ft_).u32_60  >>  ((PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT1_PAGE_SHIFT)) & 0x000fffffU)
/*
VCE0 opened page0 struct: unified stack bit
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_UFSTACK_WOFF  (59U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_UFSTACK_SHIFT (16U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_UFSTACK_CLRMSK (0xFFFEFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT0_UFSTACK(_ft_,_x_) ((_ft_).u32_59 = (((_ft_).u32_59 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_UFSTACK_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_UFSTACK_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT0_UFSTACK(_ft_) ((_ft_).u32_59  >>  ((PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_UFSTACK_SHIFT)) & 0x00000001U)
/*
VCE0 opened page0 struct: physical page 3
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE3_W0_WOFF (58U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE3_W1_WOFF (59U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE3_W0_SHIFT (20U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE3_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE3_W0_CLRMSK (0x000FFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE3_W1_CLRMSK (0xFFFF0000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT0_PPAGE3(_ft_,_x_) { ((_ft_).u32_58 = (((_ft_).u32_58 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE3_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000000000fff)))  <<  20))); \
                                                          ((_ft_).u32_59 = (((_ft_).u32_59 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE3_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffff000)))  >>  12))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT0_PPAGE3(_ft_) (((_ft_).u32_58  >>  (20)) | ((IMG_UINT64)((_ft_).u32_59 & 0x0000ffffU ) << (12)))
/*
VCE0 opened page0 struct: physical page 2
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE2_W0_WOFF (57U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE2_W1_WOFF (58U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE2_W0_SHIFT (24U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE2_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE2_W0_CLRMSK (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE2_W1_CLRMSK (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT0_PPAGE2(_ft_,_x_) { ((_ft_).u32_57 = (((_ft_).u32_57 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE2_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000000000ff)))  <<  24))); \
                                                          ((_ft_).u32_58 = (((_ft_).u32_58 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE2_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffff00)))  >>  8))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT0_PPAGE2(_ft_) (((_ft_).u32_57  >>  (24)) | ((IMG_UINT64)((_ft_).u32_58 & 0x000fffffU ) << (8)))
/*
VCE0 opened page0 struct: physical page 1
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE1_W0_WOFF (56U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE1_W1_WOFF (57U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE1_W0_SHIFT (28U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE1_W1_SHIFT (0U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE1_W0_CLRMSK (0x0FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE1_W1_CLRMSK (0xFF000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT0_PPAGE1(_ft_,_x_) { ((_ft_).u32_56 = (((_ft_).u32_56 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE1_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000000000f)))  <<  28))); \
                                                          ((_ft_).u32_57 = (((_ft_).u32_57 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE1_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000ffffff0)))  >>  4))); }
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT0_PPAGE1(_ft_) (((_ft_).u32_56  >>  (28)) | ((IMG_UINT64)((_ft_).u32_57 & 0x00ffffffU ) << (4)))
/*
VCE0 opened page0 struct: physical page 0
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE0_WOFF   (56U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE0_SHIFT  (0U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE0_CLRMSK (0xF0000000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT0_PPAGE0(_ft_,_x_) ((_ft_).u32_56 = (((_ft_).u32_56 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE0_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT0_PPAGE0(_ft_) ((_ft_).u32_56  >>  ((PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PPAGE0_SHIFT)) & 0x0fffffffU)
/*
VCE0 opened page0 struct: virtual page number
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PAGE_WOFF     (52U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PAGE_SHIFT    (0U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PAGE_CLRMSK   (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT0_PAGE(_ft_,_x_) ((_ft_).u32_52 = (((_ft_).u32_52 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PAGE_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT0_PAGE(_ft_) ((_ft_).u32_52  >>  ((PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT0_PAGE_SHIFT)) & 0x000fffffU)
/*
Rsv2 area
*/
#define PM_DATA_VHEAP_BUFFER_RESV2_W0_WOFF                (42U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W0_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W1_WOFF                (43U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W1_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W2_WOFF                (44U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W2_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W3_WOFF                (45U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W3_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W4_WOFF                (46U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W4_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W5_WOFF                (47U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W5_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W6_WOFF                (48U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W6_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W7_WOFF                (49U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W7_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W8_WOFF                (50U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W8_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W9_WOFF                (51U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W9_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W0_CLRMSK              (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W1_CLRMSK              (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W2_CLRMSK              (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W3_CLRMSK              (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W4_CLRMSK              (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W5_CLRMSK              (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W6_CLRMSK              (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W7_CLRMSK              (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W8_CLRMSK              (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV2_W9_CLRMSK              (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_SET_RESV2_W0(_ft_,_x_)       ((_ft_).u32_42 = (((_ft_).u32_42 & PM_DATA_VHEAP_BUFFER_RESV2_W0_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV2_W0_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV2_W0(_ft_)           (((_ft_).u32_42  >>  (PM_DATA_VHEAP_BUFFER_RESV2_W0_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV2_W1(_ft_,_x_)       ((_ft_).u32_43 = (((_ft_).u32_43 & PM_DATA_VHEAP_BUFFER_RESV2_W1_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV2_W1_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV2_W1(_ft_)           (((_ft_).u32_43  >>  (PM_DATA_VHEAP_BUFFER_RESV2_W1_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV2_W2(_ft_,_x_)       ((_ft_).u32_44 = (((_ft_).u32_44 & PM_DATA_VHEAP_BUFFER_RESV2_W2_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV2_W2_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV2_W2(_ft_)           (((_ft_).u32_44  >>  (PM_DATA_VHEAP_BUFFER_RESV2_W2_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV2_W3(_ft_,_x_)       ((_ft_).u32_45 = (((_ft_).u32_45 & PM_DATA_VHEAP_BUFFER_RESV2_W3_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV2_W3_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV2_W3(_ft_)           (((_ft_).u32_45  >>  (PM_DATA_VHEAP_BUFFER_RESV2_W3_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV2_W4(_ft_,_x_)       ((_ft_).u32_46 = (((_ft_).u32_46 & PM_DATA_VHEAP_BUFFER_RESV2_W4_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV2_W4_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV2_W4(_ft_)           (((_ft_).u32_46  >>  (PM_DATA_VHEAP_BUFFER_RESV2_W4_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV2_W5(_ft_,_x_)       ((_ft_).u32_47 = (((_ft_).u32_47 & PM_DATA_VHEAP_BUFFER_RESV2_W5_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV2_W5_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV2_W5(_ft_)           (((_ft_).u32_47  >>  (PM_DATA_VHEAP_BUFFER_RESV2_W5_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV2_W6(_ft_,_x_)       ((_ft_).u32_48 = (((_ft_).u32_48 & PM_DATA_VHEAP_BUFFER_RESV2_W6_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV2_W6_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV2_W6(_ft_)           (((_ft_).u32_48  >>  (PM_DATA_VHEAP_BUFFER_RESV2_W6_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV2_W7(_ft_,_x_)       ((_ft_).u32_49 = (((_ft_).u32_49 & PM_DATA_VHEAP_BUFFER_RESV2_W7_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV2_W7_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV2_W7(_ft_)           (((_ft_).u32_49  >>  (PM_DATA_VHEAP_BUFFER_RESV2_W7_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV2_W8(_ft_,_x_)       ((_ft_).u32_50 = (((_ft_).u32_50 & PM_DATA_VHEAP_BUFFER_RESV2_W8_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV2_W8_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV2_W8(_ft_)           (((_ft_).u32_50  >>  (PM_DATA_VHEAP_BUFFER_RESV2_W8_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV2_W9(_ft_,_x_)       ((_ft_).u32_51 = (((_ft_).u32_51 & PM_DATA_VHEAP_BUFFER_RESV2_W9_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV2_W9_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV2_W9(_ft_)           (((_ft_).u32_51  >>  (PM_DATA_VHEAP_BUFFER_RESV2_W9_SHIFT)) & 0xffffffffU)
/*
Number of pages allocated to TE7 but not yet closed
*/
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT_CNT_WOFF        (41U)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT_CNT_SHIFT       (24U)
#define PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT_CNT_CLRMSK      (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_TE7_INFLIGHT_CNT(_ft_,_x_) ((_ft_).u32_41 = (((_ft_).u32_41 & PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT_CNT_CLRMSK ) | (((_x_) & (0x000000ffU))  <<  (PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT_CNT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE7_INFLIGHT_CNT(_ft_)   ((_ft_).u32_41  >>  ((PM_DATA_VHEAP_BUFFER_TE7_INFLIGHT_CNT_SHIFT)) & 0x000000ffU)
/*
Number of pages allocated to TE6 but not yet closed
*/
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT_CNT_WOFF        (41U)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT_CNT_SHIFT       (16U)
#define PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT_CNT_CLRMSK      (0xFF00FFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_TE6_INFLIGHT_CNT(_ft_,_x_) ((_ft_).u32_41 = (((_ft_).u32_41 & PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT_CNT_CLRMSK ) | (((_x_) & (0x000000ffU))  <<  (PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT_CNT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE6_INFLIGHT_CNT(_ft_)   ((_ft_).u32_41  >>  ((PM_DATA_VHEAP_BUFFER_TE6_INFLIGHT_CNT_SHIFT)) & 0x000000ffU)
/*
Number of pages allocated to TE5 but not yet closed
*/
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT_CNT_WOFF        (41U)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT_CNT_SHIFT       (8U)
#define PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT_CNT_CLRMSK      (0xFFFF00FFU)
#define PM_DATA_VHEAP_BUFFER_SET_TE5_INFLIGHT_CNT(_ft_,_x_) ((_ft_).u32_41 = (((_ft_).u32_41 & PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT_CNT_CLRMSK ) | (((_x_) & (0x000000ffU))  <<  (PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT_CNT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE5_INFLIGHT_CNT(_ft_)   ((_ft_).u32_41  >>  ((PM_DATA_VHEAP_BUFFER_TE5_INFLIGHT_CNT_SHIFT)) & 0x000000ffU)
/*
Number of pages allocated to TE4 but not yet closed
*/
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT_CNT_WOFF        (41U)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT_CNT_SHIFT       (0U)
#define PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT_CNT_CLRMSK      (0xFFFFFF00U)
#define PM_DATA_VHEAP_BUFFER_SET_TE4_INFLIGHT_CNT(_ft_,_x_) ((_ft_).u32_41 = (((_ft_).u32_41 & PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT_CNT_CLRMSK ) | (((_x_) & (0x000000ffU))  <<  (PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT_CNT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE4_INFLIGHT_CNT(_ft_)   ((_ft_).u32_41  >>  ((PM_DATA_VHEAP_BUFFER_TE4_INFLIGHT_CNT_SHIFT)) & 0x000000ffU)
/*
Number of pages allocated to TE3 but not yet closed
*/
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT_CNT_WOFF        (40U)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT_CNT_SHIFT       (24U)
#define PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT_CNT_CLRMSK      (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_TE3_INFLIGHT_CNT(_ft_,_x_) ((_ft_).u32_40 = (((_ft_).u32_40 & PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT_CNT_CLRMSK ) | (((_x_) & (0x000000ffU))  <<  (PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT_CNT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE3_INFLIGHT_CNT(_ft_)   ((_ft_).u32_40  >>  ((PM_DATA_VHEAP_BUFFER_TE3_INFLIGHT_CNT_SHIFT)) & 0x000000ffU)
/*
Number of pages allocated to TE2 but not yet closed
*/
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT_CNT_WOFF        (40U)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT_CNT_SHIFT       (16U)
#define PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT_CNT_CLRMSK      (0xFF00FFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_TE2_INFLIGHT_CNT(_ft_,_x_) ((_ft_).u32_40 = (((_ft_).u32_40 & PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT_CNT_CLRMSK ) | (((_x_) & (0x000000ffU))  <<  (PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT_CNT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE2_INFLIGHT_CNT(_ft_)   ((_ft_).u32_40  >>  ((PM_DATA_VHEAP_BUFFER_TE2_INFLIGHT_CNT_SHIFT)) & 0x000000ffU)
/*
Number of pages allocated to TE1 but not yet closed
*/
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT_CNT_WOFF        (40U)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT_CNT_SHIFT       (8U)
#define PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT_CNT_CLRMSK      (0xFFFF00FFU)
#define PM_DATA_VHEAP_BUFFER_SET_TE1_INFLIGHT_CNT(_ft_,_x_) ((_ft_).u32_40 = (((_ft_).u32_40 & PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT_CNT_CLRMSK ) | (((_x_) & (0x000000ffU))  <<  (PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT_CNT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE1_INFLIGHT_CNT(_ft_)   ((_ft_).u32_40  >>  ((PM_DATA_VHEAP_BUFFER_TE1_INFLIGHT_CNT_SHIFT)) & 0x000000ffU)
/*
Number of pages allocated to TE0 but not yet closed
*/
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT_CNT_WOFF        (40U)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT_CNT_SHIFT       (0U)
#define PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT_CNT_CLRMSK      (0xFFFFFF00U)
#define PM_DATA_VHEAP_BUFFER_SET_TE0_INFLIGHT_CNT(_ft_,_x_) ((_ft_).u32_40 = (((_ft_).u32_40 & PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT_CNT_CLRMSK ) | (((_x_) & (0x000000ffU))  <<  (PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT_CNT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_TE0_INFLIGHT_CNT(_ft_)   ((_ft_).u32_40  >>  ((PM_DATA_VHEAP_BUFFER_TE0_INFLIGHT_CNT_SHIFT)) & 0x000000ffU)
/*
Number of pages allocated to VCE7 but not yet closed
*/
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT_CNT_WOFF       (39U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT_CNT_SHIFT      (24U)
#define PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT_CNT_CLRMSK     (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE7_INFLIGHT_CNT(_ft_,_x_) ((_ft_).u32_39 = (((_ft_).u32_39 & PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT_CNT_CLRMSK ) | (((_x_) & (0x000000ffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT_CNT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE7_INFLIGHT_CNT(_ft_)  ((_ft_).u32_39  >>  ((PM_DATA_VHEAP_BUFFER_VCE7_INFLIGHT_CNT_SHIFT)) & 0x000000ffU)
/*
Number of pages allocated to VCE6 but not yet closed
*/
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT_CNT_WOFF       (39U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT_CNT_SHIFT      (16U)
#define PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT_CNT_CLRMSK     (0xFF00FFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE6_INFLIGHT_CNT(_ft_,_x_) ((_ft_).u32_39 = (((_ft_).u32_39 & PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT_CNT_CLRMSK ) | (((_x_) & (0x000000ffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT_CNT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE6_INFLIGHT_CNT(_ft_)  ((_ft_).u32_39  >>  ((PM_DATA_VHEAP_BUFFER_VCE6_INFLIGHT_CNT_SHIFT)) & 0x000000ffU)
/*
Number of pages allocated to VCE5 but not yet closed
*/
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT_CNT_WOFF       (39U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT_CNT_SHIFT      (8U)
#define PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT_CNT_CLRMSK     (0xFFFF00FFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE5_INFLIGHT_CNT(_ft_,_x_) ((_ft_).u32_39 = (((_ft_).u32_39 & PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT_CNT_CLRMSK ) | (((_x_) & (0x000000ffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT_CNT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE5_INFLIGHT_CNT(_ft_)  ((_ft_).u32_39  >>  ((PM_DATA_VHEAP_BUFFER_VCE5_INFLIGHT_CNT_SHIFT)) & 0x000000ffU)
/*
Number of pages allocated to VCE4 but not yet closed
*/
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT_CNT_WOFF       (39U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT_CNT_SHIFT      (0U)
#define PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT_CNT_CLRMSK     (0xFFFFFF00U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE4_INFLIGHT_CNT(_ft_,_x_) ((_ft_).u32_39 = (((_ft_).u32_39 & PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT_CNT_CLRMSK ) | (((_x_) & (0x000000ffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT_CNT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE4_INFLIGHT_CNT(_ft_)  ((_ft_).u32_39  >>  ((PM_DATA_VHEAP_BUFFER_VCE4_INFLIGHT_CNT_SHIFT)) & 0x000000ffU)
/*
Number of pages allocated to VCE3 but not yet closed
*/
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT_CNT_WOFF       (38U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT_CNT_SHIFT      (24U)
#define PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT_CNT_CLRMSK     (0x00FFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE3_INFLIGHT_CNT(_ft_,_x_) ((_ft_).u32_38 = (((_ft_).u32_38 & PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT_CNT_CLRMSK ) | (((_x_) & (0x000000ffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT_CNT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE3_INFLIGHT_CNT(_ft_)  ((_ft_).u32_38  >>  ((PM_DATA_VHEAP_BUFFER_VCE3_INFLIGHT_CNT_SHIFT)) & 0x000000ffU)
/*
Number of pages allocated to VCE2 but not yet closed
*/
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT_CNT_WOFF       (38U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT_CNT_SHIFT      (16U)
#define PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT_CNT_CLRMSK     (0xFF00FFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE2_INFLIGHT_CNT(_ft_,_x_) ((_ft_).u32_38 = (((_ft_).u32_38 & PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT_CNT_CLRMSK ) | (((_x_) & (0x000000ffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT_CNT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE2_INFLIGHT_CNT(_ft_)  ((_ft_).u32_38  >>  ((PM_DATA_VHEAP_BUFFER_VCE2_INFLIGHT_CNT_SHIFT)) & 0x000000ffU)
/*
Number of pages allocated to VCE1 but not yet closed
*/
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT_CNT_WOFF       (38U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT_CNT_SHIFT      (8U)
#define PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT_CNT_CLRMSK     (0xFFFF00FFU)
#define PM_DATA_VHEAP_BUFFER_SET_VCE1_INFLIGHT_CNT(_ft_,_x_) ((_ft_).u32_38 = (((_ft_).u32_38 & PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT_CNT_CLRMSK ) | (((_x_) & (0x000000ffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT_CNT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE1_INFLIGHT_CNT(_ft_)  ((_ft_).u32_38  >>  ((PM_DATA_VHEAP_BUFFER_VCE1_INFLIGHT_CNT_SHIFT)) & 0x000000ffU)
/*
Number of pages allocated to VCE0 but not yet closed
*/
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT_CNT_WOFF       (38U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT_CNT_SHIFT      (0U)
#define PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT_CNT_CLRMSK     (0xFFFFFF00U)
#define PM_DATA_VHEAP_BUFFER_SET_VCE0_INFLIGHT_CNT(_ft_,_x_) ((_ft_).u32_38 = (((_ft_).u32_38 & PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT_CNT_CLRMSK ) | (((_x_) & (0x000000ffU))  <<  (PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT_CNT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VCE0_INFLIGHT_CNT(_ft_)  ((_ft_).u32_38  >>  ((PM_DATA_VHEAP_BUFFER_VCE0_INFLIGHT_CNT_SHIFT)) & 0x000000ffU)
/*
1=The PM ran out of memory during processing
*/
#define PM_DATA_VHEAP_BUFFER_PM_OUTOFMEM_R_WOFF           (37U)
#define PM_DATA_VHEAP_BUFFER_PM_OUTOFMEM_R_SHIFT          (31U)
#define PM_DATA_VHEAP_BUFFER_PM_OUTOFMEM_R_CLRMSK         (0x7FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_PM_OUTOFMEM_R(_ft_,_x_)  ((_ft_).u32_37 = (((_ft_).u32_37 & PM_DATA_VHEAP_BUFFER_PM_OUTOFMEM_R_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_PM_OUTOFMEM_R_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_PM_OUTOFMEM_R(_ft_)      ((_ft_).u32_37  >>  ((PM_DATA_VHEAP_BUFFER_PM_OUTOFMEM_R_SHIFT)) & 0x00000001U)
/*
A copy of rgx_cr_pm_outofmem_abortall (at the point the VHEAP buffer was written)
*/
#define PM_DATA_VHEAP_BUFFER_OUTOFMEM_ABORT_WOFF          (37U)
#define PM_DATA_VHEAP_BUFFER_OUTOFMEM_ABORT_SHIFT         (30U)
#define PM_DATA_VHEAP_BUFFER_OUTOFMEM_ABORT_CLRMSK        (0xBFFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_OUTOFMEM_ABORT(_ft_,_x_) ((_ft_).u32_37 = (((_ft_).u32_37 & PM_DATA_VHEAP_BUFFER_OUTOFMEM_ABORT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_OUTOFMEM_ABORT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_OUTOFMEM_ABORT(_ft_)     ((_ft_).u32_37  >>  ((PM_DATA_VHEAP_BUFFER_OUTOFMEM_ABORT_SHIFT)) & 0x00000001U)
/*
When running out of memory, indicates which of the free stacks have run out of memory.
If bit 2 is set, MMUSTACK has run out of memory.
Bit 2 is reserved.
If bit 1 is set, UFSTACK has run out of memory.
If bit 0 is set, FSTACK has run out of memory.
*/
#define PM_DATA_VHEAP_BUFFER_OUTOFMEM_SRC_WOFF            (37U)
#define PM_DATA_VHEAP_BUFFER_OUTOFMEM_SRC_SHIFT           (2U)
#define PM_DATA_VHEAP_BUFFER_OUTOFMEM_SRC_CLRMSK          (0xFFFFFFE3U)
#define PM_DATA_VHEAP_BUFFER_SET_OUTOFMEM_SRC(_ft_,_x_)   ((_ft_).u32_37 = (((_ft_).u32_37 & PM_DATA_VHEAP_BUFFER_OUTOFMEM_SRC_CLRMSK ) | (((_x_) & (0x00000007U))  <<  (PM_DATA_VHEAP_BUFFER_OUTOFMEM_SRC_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_OUTOFMEM_SRC(_ft_)       ((_ft_).u32_37  >>  ((PM_DATA_VHEAP_BUFFER_OUTOFMEM_SRC_SHIFT)) & 0x00000007U)
/*
When running out of memory, indicates the source of the request that caused the OOM event
If bit 1 is set, TE caused the OOM.
If bit 0 is set, VCE caused the OOM.
*/
#define PM_DATA_VHEAP_BUFFER_REQ_SRC_WOFF                 (37U)
#define PM_DATA_VHEAP_BUFFER_REQ_SRC_SHIFT                (0U)
#define PM_DATA_VHEAP_BUFFER_REQ_SRC_CLRMSK               (0xFFFFFFFCU)
#define PM_DATA_VHEAP_BUFFER_SET_REQ_SRC(_ft_,_x_)        ((_ft_).u32_37 = (((_ft_).u32_37 & PM_DATA_VHEAP_BUFFER_REQ_SRC_CLRMSK ) | (((_x_) & (0x00000003U))  <<  (PM_DATA_VHEAP_BUFFER_REQ_SRC_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_REQ_SRC(_ft_)            ((_ft_).u32_37  >>  ((PM_DATA_VHEAP_BUFFER_REQ_SRC_SHIFT)) & 0x00000003U)
/*
MAX RTA index dword in TA stream
*/
#define PM_DATA_VHEAP_BUFFER_MAX_RTA_WOFF                 (36U)
#define PM_DATA_VHEAP_BUFFER_MAX_RTA_SHIFT                (0U)
#define PM_DATA_VHEAP_BUFFER_MAX_RTA_CLRMSK               (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_SET_MAX_RTA(_ft_,_x_)        ((_ft_).u32_36 = (((_ft_).u32_36 & PM_DATA_VHEAP_BUFFER_MAX_RTA_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (PM_DATA_VHEAP_BUFFER_MAX_RTA_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_MAX_RTA(_ft_)            ((_ft_).u32_36  >>  ((PM_DATA_VHEAP_BUFFER_MAX_RTA_SHIFT)) & 0xffffffffU)
/*
Rsv1 area
*/
#define PM_DATA_VHEAP_BUFFER_RESV1_W0_WOFF                (20U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W0_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W1_WOFF                (21U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W1_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W2_WOFF                (22U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W2_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W3_WOFF                (23U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W3_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W4_WOFF                (24U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W4_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W5_WOFF                (25U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W5_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W6_WOFF                (26U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W6_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W7_WOFF                (27U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W7_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W8_WOFF                (28U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W8_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W9_WOFF                (29U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W9_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W10_WOFF               (30U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W10_SHIFT              (0U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W11_WOFF               (31U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W11_SHIFT              (0U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W12_WOFF               (32U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W12_SHIFT              (0U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W13_WOFF               (33U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W13_SHIFT              (0U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W14_WOFF               (34U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W14_SHIFT              (0U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W15_WOFF               (35U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W15_SHIFT              (0U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W0_CLRMSK              (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W1_CLRMSK              (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W2_CLRMSK              (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W3_CLRMSK              (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W4_CLRMSK              (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W5_CLRMSK              (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W6_CLRMSK              (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W7_CLRMSK              (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W8_CLRMSK              (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W9_CLRMSK              (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W10_CLRMSK             (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W11_CLRMSK             (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W12_CLRMSK             (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W13_CLRMSK             (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W14_CLRMSK             (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_RESV1_W15_CLRMSK             (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_SET_RESV1_W0(_ft_,_x_)       ((_ft_).u32_20 = (((_ft_).u32_20 & PM_DATA_VHEAP_BUFFER_RESV1_W0_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV1_W0_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV1_W0(_ft_)           (((_ft_).u32_20  >>  (PM_DATA_VHEAP_BUFFER_RESV1_W0_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV1_W1(_ft_,_x_)       ((_ft_).u32_21 = (((_ft_).u32_21 & PM_DATA_VHEAP_BUFFER_RESV1_W1_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV1_W1_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV1_W1(_ft_)           (((_ft_).u32_21  >>  (PM_DATA_VHEAP_BUFFER_RESV1_W1_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV1_W2(_ft_,_x_)       ((_ft_).u32_22 = (((_ft_).u32_22 & PM_DATA_VHEAP_BUFFER_RESV1_W2_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV1_W2_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV1_W2(_ft_)           (((_ft_).u32_22  >>  (PM_DATA_VHEAP_BUFFER_RESV1_W2_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV1_W3(_ft_,_x_)       ((_ft_).u32_23 = (((_ft_).u32_23 & PM_DATA_VHEAP_BUFFER_RESV1_W3_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV1_W3_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV1_W3(_ft_)           (((_ft_).u32_23  >>  (PM_DATA_VHEAP_BUFFER_RESV1_W3_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV1_W4(_ft_,_x_)       ((_ft_).u32_24 = (((_ft_).u32_24 & PM_DATA_VHEAP_BUFFER_RESV1_W4_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV1_W4_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV1_W4(_ft_)           (((_ft_).u32_24  >>  (PM_DATA_VHEAP_BUFFER_RESV1_W4_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV1_W5(_ft_,_x_)       ((_ft_).u32_25 = (((_ft_).u32_25 & PM_DATA_VHEAP_BUFFER_RESV1_W5_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV1_W5_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV1_W5(_ft_)           (((_ft_).u32_25  >>  (PM_DATA_VHEAP_BUFFER_RESV1_W5_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV1_W6(_ft_,_x_)       ((_ft_).u32_26 = (((_ft_).u32_26 & PM_DATA_VHEAP_BUFFER_RESV1_W6_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV1_W6_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV1_W6(_ft_)           (((_ft_).u32_26  >>  (PM_DATA_VHEAP_BUFFER_RESV1_W6_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV1_W7(_ft_,_x_)       ((_ft_).u32_27 = (((_ft_).u32_27 & PM_DATA_VHEAP_BUFFER_RESV1_W7_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV1_W7_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV1_W7(_ft_)           (((_ft_).u32_27  >>  (PM_DATA_VHEAP_BUFFER_RESV1_W7_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV1_W8(_ft_,_x_)       ((_ft_).u32_28 = (((_ft_).u32_28 & PM_DATA_VHEAP_BUFFER_RESV1_W8_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV1_W8_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV1_W8(_ft_)           (((_ft_).u32_28  >>  (PM_DATA_VHEAP_BUFFER_RESV1_W8_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV1_W9(_ft_,_x_)       ((_ft_).u32_29 = (((_ft_).u32_29 & PM_DATA_VHEAP_BUFFER_RESV1_W9_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV1_W9_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV1_W9(_ft_)           (((_ft_).u32_29  >>  (PM_DATA_VHEAP_BUFFER_RESV1_W9_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV1_W10(_ft_,_x_)      ((_ft_).u32_30 = (((_ft_).u32_30 & PM_DATA_VHEAP_BUFFER_RESV1_W10_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV1_W10_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV1_W10(_ft_)          (((_ft_).u32_30  >>  (PM_DATA_VHEAP_BUFFER_RESV1_W10_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV1_W11(_ft_,_x_)      ((_ft_).u32_31 = (((_ft_).u32_31 & PM_DATA_VHEAP_BUFFER_RESV1_W11_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV1_W11_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV1_W11(_ft_)          (((_ft_).u32_31  >>  (PM_DATA_VHEAP_BUFFER_RESV1_W11_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV1_W12(_ft_,_x_)      ((_ft_).u32_32 = (((_ft_).u32_32 & PM_DATA_VHEAP_BUFFER_RESV1_W12_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV1_W12_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV1_W12(_ft_)          (((_ft_).u32_32  >>  (PM_DATA_VHEAP_BUFFER_RESV1_W12_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV1_W13(_ft_,_x_)      ((_ft_).u32_33 = (((_ft_).u32_33 & PM_DATA_VHEAP_BUFFER_RESV1_W13_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV1_W13_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV1_W13(_ft_)          (((_ft_).u32_33  >>  (PM_DATA_VHEAP_BUFFER_RESV1_W13_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV1_W14(_ft_,_x_)      ((_ft_).u32_34 = (((_ft_).u32_34 & PM_DATA_VHEAP_BUFFER_RESV1_W14_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV1_W14_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV1_W14(_ft_)          (((_ft_).u32_34  >>  (PM_DATA_VHEAP_BUFFER_RESV1_W14_SHIFT)) & 0xffffffffU)
#define PM_DATA_VHEAP_BUFFER_SET_RESV1_W15(_ft_,_x_)      ((_ft_).u32_35 = (((_ft_).u32_35 & PM_DATA_VHEAP_BUFFER_RESV1_W15_CLRMSK ) |  (((_x_) & (0xffffffffU))  <<  PM_DATA_VHEAP_BUFFER_RESV1_W15_SHIFT)))
#define PM_DATA_VHEAP_BUFFER_GET_RESV1_W15(_ft_)          (((_ft_).u32_35  >>  (PM_DATA_VHEAP_BUFFER_RESV1_W15_SHIFT)) & 0xffffffffU)
/*
Rsv0 area
*/
#define PM_DATA_VHEAP_BUFFER_RESV0_WOFF                   (19U)
#define PM_DATA_VHEAP_BUFFER_RESV0_SHIFT                  (0U)
#define PM_DATA_VHEAP_BUFFER_RESV0_CLRMSK                 (0x00000000U)
#define PM_DATA_VHEAP_BUFFER_SET_RESV0(_ft_,_x_)          ((_ft_).u32_19 = (((_ft_).u32_19 & PM_DATA_VHEAP_BUFFER_RESV0_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (PM_DATA_VHEAP_BUFFER_RESV0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_RESV0(_ft_)              ((_ft_).u32_19  >>  ((PM_DATA_VHEAP_BUFFER_RESV0_SHIFT)) & 0xffffffffU)
/*
Init Bit Sent Flag for TE7
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_TE7_INIT_WOFF           (18U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE7_INIT_SHIFT          (31U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE7_INIT_CLRMSK         (0x7FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_TE7_INIT(_ft_,_x_)  ((_ft_).u32_18 = (((_ft_).u32_18 & PM_DATA_VHEAP_BUFFER_VPTR_TE7_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_TE7_INIT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_TE7_INIT(_ft_)      ((_ft_).u32_18  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_TE7_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for TE7
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_TE7_WOFF                (18U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE7_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE7_CLRMSK              (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_TE7(_ft_,_x_)       ((_ft_).u32_18 = (((_ft_).u32_18 & PM_DATA_VHEAP_BUFFER_VPTR_TE7_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_TE7_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_TE7(_ft_)           ((_ft_).u32_18  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_TE7_SHIFT)) & 0x000fffffU)
/*
Init Bit Sent Flag for VCE7
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE7_INIT_WOFF          (17U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE7_INIT_SHIFT         (31U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE7_INIT_CLRMSK        (0x7FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_VCE7_INIT(_ft_,_x_) ((_ft_).u32_17 = (((_ft_).u32_17 & PM_DATA_VHEAP_BUFFER_VPTR_VCE7_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_VCE7_INIT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_VCE7_INIT(_ft_)     ((_ft_).u32_17  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_VCE7_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for VCE7
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE7_WOFF               (17U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE7_SHIFT              (0U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE7_CLRMSK             (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_VCE7(_ft_,_x_)      ((_ft_).u32_17 = (((_ft_).u32_17 & PM_DATA_VHEAP_BUFFER_VPTR_VCE7_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_VCE7_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_VCE7(_ft_)          ((_ft_).u32_17  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_VCE7_SHIFT)) & 0x000fffffU)
/*
Init Bit Sent Flag for TE6
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_TE6_INIT_WOFF           (16U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE6_INIT_SHIFT          (31U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE6_INIT_CLRMSK         (0x7FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_TE6_INIT(_ft_,_x_)  ((_ft_).u32_16 = (((_ft_).u32_16 & PM_DATA_VHEAP_BUFFER_VPTR_TE6_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_TE6_INIT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_TE6_INIT(_ft_)      ((_ft_).u32_16  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_TE6_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for TE6
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_TE6_WOFF                (16U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE6_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE6_CLRMSK              (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_TE6(_ft_,_x_)       ((_ft_).u32_16 = (((_ft_).u32_16 & PM_DATA_VHEAP_BUFFER_VPTR_TE6_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_TE6_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_TE6(_ft_)           ((_ft_).u32_16  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_TE6_SHIFT)) & 0x000fffffU)
/*
Init Bit Sent Flag for VCE6
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE6_INIT_WOFF          (15U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE6_INIT_SHIFT         (31U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE6_INIT_CLRMSK        (0x7FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_VCE6_INIT(_ft_,_x_) ((_ft_).u32_15 = (((_ft_).u32_15 & PM_DATA_VHEAP_BUFFER_VPTR_VCE6_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_VCE6_INIT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_VCE6_INIT(_ft_)     ((_ft_).u32_15  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_VCE6_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for VCE6
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE6_WOFF               (15U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE6_SHIFT              (0U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE6_CLRMSK             (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_VCE6(_ft_,_x_)      ((_ft_).u32_15 = (((_ft_).u32_15 & PM_DATA_VHEAP_BUFFER_VPTR_VCE6_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_VCE6_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_VCE6(_ft_)          ((_ft_).u32_15  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_VCE6_SHIFT)) & 0x000fffffU)
/*
Init Bit Sent Flag for TE5
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_TE5_INIT_WOFF           (14U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE5_INIT_SHIFT          (31U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE5_INIT_CLRMSK         (0x7FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_TE5_INIT(_ft_,_x_)  ((_ft_).u32_14 = (((_ft_).u32_14 & PM_DATA_VHEAP_BUFFER_VPTR_TE5_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_TE5_INIT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_TE5_INIT(_ft_)      ((_ft_).u32_14  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_TE5_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for TE5
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_TE5_WOFF                (14U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE5_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE5_CLRMSK              (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_TE5(_ft_,_x_)       ((_ft_).u32_14 = (((_ft_).u32_14 & PM_DATA_VHEAP_BUFFER_VPTR_TE5_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_TE5_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_TE5(_ft_)           ((_ft_).u32_14  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_TE5_SHIFT)) & 0x000fffffU)
/*
Init Bit Sent Flag for VCE5
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE5_INIT_WOFF          (13U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE5_INIT_SHIFT         (31U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE5_INIT_CLRMSK        (0x7FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_VCE5_INIT(_ft_,_x_) ((_ft_).u32_13 = (((_ft_).u32_13 & PM_DATA_VHEAP_BUFFER_VPTR_VCE5_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_VCE5_INIT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_VCE5_INIT(_ft_)     ((_ft_).u32_13  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_VCE5_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for VCE5
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE5_WOFF               (13U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE5_SHIFT              (0U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE5_CLRMSK             (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_VCE5(_ft_,_x_)      ((_ft_).u32_13 = (((_ft_).u32_13 & PM_DATA_VHEAP_BUFFER_VPTR_VCE5_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_VCE5_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_VCE5(_ft_)          ((_ft_).u32_13  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_VCE5_SHIFT)) & 0x000fffffU)
/*
Init Bit Sent Flag for TE4
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_TE4_INIT_WOFF           (12U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE4_INIT_SHIFT          (31U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE4_INIT_CLRMSK         (0x7FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_TE4_INIT(_ft_,_x_)  ((_ft_).u32_12 = (((_ft_).u32_12 & PM_DATA_VHEAP_BUFFER_VPTR_TE4_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_TE4_INIT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_TE4_INIT(_ft_)      ((_ft_).u32_12  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_TE4_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for TE4
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_TE4_WOFF                (12U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE4_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE4_CLRMSK              (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_TE4(_ft_,_x_)       ((_ft_).u32_12 = (((_ft_).u32_12 & PM_DATA_VHEAP_BUFFER_VPTR_TE4_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_TE4_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_TE4(_ft_)           ((_ft_).u32_12  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_TE4_SHIFT)) & 0x000fffffU)
/*
Init Bit Sent Flag for VCE4
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE4_INIT_WOFF          (11U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE4_INIT_SHIFT         (31U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE4_INIT_CLRMSK        (0x7FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_VCE4_INIT(_ft_,_x_) ((_ft_).u32_11 = (((_ft_).u32_11 & PM_DATA_VHEAP_BUFFER_VPTR_VCE4_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_VCE4_INIT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_VCE4_INIT(_ft_)     ((_ft_).u32_11  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_VCE4_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for VCE4
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE4_WOFF               (11U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE4_SHIFT              (0U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE4_CLRMSK             (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_VCE4(_ft_,_x_)      ((_ft_).u32_11 = (((_ft_).u32_11 & PM_DATA_VHEAP_BUFFER_VPTR_VCE4_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_VCE4_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_VCE4(_ft_)          ((_ft_).u32_11  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_VCE4_SHIFT)) & 0x000fffffU)
/*
Init Bit Sent Flag for TE3
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_TE3_INIT_WOFF           (10U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE3_INIT_SHIFT          (31U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE3_INIT_CLRMSK         (0x7FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_TE3_INIT(_ft_,_x_)  ((_ft_).u32_10 = (((_ft_).u32_10 & PM_DATA_VHEAP_BUFFER_VPTR_TE3_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_TE3_INIT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_TE3_INIT(_ft_)      ((_ft_).u32_10  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_TE3_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for TE3
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_TE3_WOFF                (10U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE3_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE3_CLRMSK              (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_TE3(_ft_,_x_)       ((_ft_).u32_10 = (((_ft_).u32_10 & PM_DATA_VHEAP_BUFFER_VPTR_TE3_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_TE3_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_TE3(_ft_)           ((_ft_).u32_10  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_TE3_SHIFT)) & 0x000fffffU)
/*
Init Bit Sent Flag for VCE3
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE3_INIT_WOFF          (9U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE3_INIT_SHIFT         (31U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE3_INIT_CLRMSK        (0x7FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_VCE3_INIT(_ft_,_x_) ((_ft_).u32_9 = (((_ft_).u32_9 & PM_DATA_VHEAP_BUFFER_VPTR_VCE3_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_VCE3_INIT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_VCE3_INIT(_ft_)     ((_ft_).u32_9  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_VCE3_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for VCE3
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE3_WOFF               (9U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE3_SHIFT              (0U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE3_CLRMSK             (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_VCE3(_ft_,_x_)      ((_ft_).u32_9 = (((_ft_).u32_9 & PM_DATA_VHEAP_BUFFER_VPTR_VCE3_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_VCE3_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_VCE3(_ft_)          ((_ft_).u32_9  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_VCE3_SHIFT)) & 0x000fffffU)
/*
Init Bit Sent Flag for TE2
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_TE2_INIT_WOFF           (8U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE2_INIT_SHIFT          (31U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE2_INIT_CLRMSK         (0x7FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_TE2_INIT(_ft_,_x_)  ((_ft_).u32_8 = (((_ft_).u32_8 & PM_DATA_VHEAP_BUFFER_VPTR_TE2_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_TE2_INIT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_TE2_INIT(_ft_)      ((_ft_).u32_8  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_TE2_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for TE2
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_TE2_WOFF                (8U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE2_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE2_CLRMSK              (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_TE2(_ft_,_x_)       ((_ft_).u32_8 = (((_ft_).u32_8 & PM_DATA_VHEAP_BUFFER_VPTR_TE2_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_TE2_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_TE2(_ft_)           ((_ft_).u32_8  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_TE2_SHIFT)) & 0x000fffffU)
/*
Init Bit Sent Flag for VCE2
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE2_INIT_WOFF          (7U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE2_INIT_SHIFT         (31U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE2_INIT_CLRMSK        (0x7FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_VCE2_INIT(_ft_,_x_) ((_ft_).u32_7 = (((_ft_).u32_7 & PM_DATA_VHEAP_BUFFER_VPTR_VCE2_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_VCE2_INIT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_VCE2_INIT(_ft_)     ((_ft_).u32_7  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_VCE2_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for VCE2
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE2_WOFF               (7U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE2_SHIFT              (0U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE2_CLRMSK             (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_VCE2(_ft_,_x_)      ((_ft_).u32_7 = (((_ft_).u32_7 & PM_DATA_VHEAP_BUFFER_VPTR_VCE2_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_VCE2_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_VCE2(_ft_)          ((_ft_).u32_7  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_VCE2_SHIFT)) & 0x000fffffU)
/*
Init Bit Sent Flag for TE1
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_TE1_INIT_WOFF           (6U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE1_INIT_SHIFT          (31U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE1_INIT_CLRMSK         (0x7FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_TE1_INIT(_ft_,_x_)  ((_ft_).u32_6 = (((_ft_).u32_6 & PM_DATA_VHEAP_BUFFER_VPTR_TE1_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_TE1_INIT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_TE1_INIT(_ft_)      ((_ft_).u32_6  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_TE1_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for TE1
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_TE1_WOFF                (6U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE1_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE1_CLRMSK              (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_TE1(_ft_,_x_)       ((_ft_).u32_6 = (((_ft_).u32_6 & PM_DATA_VHEAP_BUFFER_VPTR_TE1_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_TE1_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_TE1(_ft_)           ((_ft_).u32_6  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_TE1_SHIFT)) & 0x000fffffU)
/*
Init Bit Sent Flag for VCE1
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE1_INIT_WOFF          (5U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE1_INIT_SHIFT         (31U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE1_INIT_CLRMSK        (0x7FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_VCE1_INIT(_ft_,_x_) ((_ft_).u32_5 = (((_ft_).u32_5 & PM_DATA_VHEAP_BUFFER_VPTR_VCE1_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_VCE1_INIT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_VCE1_INIT(_ft_)     ((_ft_).u32_5  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_VCE1_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for VCE1
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE1_WOFF               (5U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE1_SHIFT              (0U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE1_CLRMSK             (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_VCE1(_ft_,_x_)      ((_ft_).u32_5 = (((_ft_).u32_5 & PM_DATA_VHEAP_BUFFER_VPTR_VCE1_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_VCE1_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_VCE1(_ft_)          ((_ft_).u32_5  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_VCE1_SHIFT)) & 0x000fffffU)
/*
4KB aligned  top pointer for MMU
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_MMU_WOFF                (4U)
#define PM_DATA_VHEAP_BUFFER_VPTR_MMU_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_VPTR_MMU_CLRMSK              (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_MMU(_ft_,_x_)       ((_ft_).u32_4 = (((_ft_).u32_4 & PM_DATA_VHEAP_BUFFER_VPTR_MMU_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_MMU_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_MMU(_ft_)           ((_ft_).u32_4  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_MMU_SHIFT)) & 0x000fffffU)
/*
Init Bit Sent Flag for ALIST
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_ALIST_INIT_WOFF         (3U)
#define PM_DATA_VHEAP_BUFFER_VPTR_ALIST_INIT_SHIFT        (31U)
#define PM_DATA_VHEAP_BUFFER_VPTR_ALIST_INIT_CLRMSK       (0x7FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_ALIST_INIT(_ft_,_x_) ((_ft_).u32_3 = (((_ft_).u32_3 & PM_DATA_VHEAP_BUFFER_VPTR_ALIST_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_ALIST_INIT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_ALIST_INIT(_ft_)    ((_ft_).u32_3  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_ALIST_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for ALIST
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_ALIST_WOFF              (3U)
#define PM_DATA_VHEAP_BUFFER_VPTR_ALIST_SHIFT             (0U)
#define PM_DATA_VHEAP_BUFFER_VPTR_ALIST_CLRMSK            (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_ALIST(_ft_,_x_)     ((_ft_).u32_3 = (((_ft_).u32_3 & PM_DATA_VHEAP_BUFFER_VPTR_ALIST_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_ALIST_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_ALIST(_ft_)         ((_ft_).u32_3  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_ALIST_SHIFT)) & 0x000fffffU)
/*
Init Bit Sent Flag for TE0
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_TE0_INIT_WOFF           (1U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE0_INIT_SHIFT          (31U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE0_INIT_CLRMSK         (0x7FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_TE0_INIT(_ft_,_x_)  ((_ft_).u32_1 = (((_ft_).u32_1 & PM_DATA_VHEAP_BUFFER_VPTR_TE0_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_TE0_INIT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_TE0_INIT(_ft_)      ((_ft_).u32_1  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_TE0_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for TE0
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_TE0_WOFF                (1U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE0_SHIFT               (0U)
#define PM_DATA_VHEAP_BUFFER_VPTR_TE0_CLRMSK              (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_TE0(_ft_,_x_)       ((_ft_).u32_1 = (((_ft_).u32_1 & PM_DATA_VHEAP_BUFFER_VPTR_TE0_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_TE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_TE0(_ft_)           ((_ft_).u32_1  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_TE0_SHIFT)) & 0x000fffffU)
/*
Init Bit Sent Flag for VCE0
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE0_INIT_WOFF          (0U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE0_INIT_SHIFT         (31U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE0_INIT_CLRMSK        (0x7FFFFFFFU)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_VCE0_INIT(_ft_,_x_) ((_ft_).u32_0 = (((_ft_).u32_0 & PM_DATA_VHEAP_BUFFER_VPTR_VCE0_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_VCE0_INIT_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_VCE0_INIT(_ft_)     ((_ft_).u32_0  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_VCE0_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for VCE0
*/
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE0_WOFF               (0U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE0_SHIFT              (0U)
#define PM_DATA_VHEAP_BUFFER_VPTR_VCE0_CLRMSK             (0xFFF00000U)
#define PM_DATA_VHEAP_BUFFER_SET_VPTR_VCE0(_ft_,_x_)      ((_ft_).u32_0 = (((_ft_).u32_0 & PM_DATA_VHEAP_BUFFER_VPTR_VCE0_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (PM_DATA_VHEAP_BUFFER_VPTR_VCE0_SHIFT))))
#define PM_DATA_VHEAP_BUFFER_GET_VPTR_VCE0(_ft_)          ((_ft_).u32_0  >>  ((PM_DATA_VHEAP_BUFFER_VPTR_VCE0_SHIFT)) & 0x000fffffU)


#if defined(RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES)
/*
The PM FreeListState Buffer Layout - this will apply to 3 resources - FSTACK, UFSTACK and MMUSTACK
*/
typedef struct _RGX_PM_FREELISTSTATE_BUFFER {
     IMG_UINT32 u32_0;
     IMG_UINT32 u32_1;
     IMG_UINT32 u32_2;
     IMG_UINT32 u32_3;
     IMG_UINT32 u32_4;
     IMG_UINT32 u32_5;
     IMG_UINT32 u32_6;
     IMG_UINT32 u32_7;
} RGX_PM_FREELISTSTATE_BUFFER;

/*
Reserved field word 2
*/
#define RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_2_WOFF    (7U)
#define RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_2_SHIFT   (0U)
#define RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_2_CLRMSK  (0x00000000U)
#define RGX_PM_FREELISTSTATE_BUFFER_SET_RSV_STUFF32_2(_ft_,_x_) ((_ft_).u32_7 = (((_ft_).u32_7 & RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_2_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_2_SHIFT))))
#define RGX_PM_FREELISTSTATE_BUFFER_GET_RSV_STUFF32_2(_ft_) ((_ft_).u32_7  >>  ((RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_2_SHIFT)) & 0xffffffffU)
/*
Reserved field word 1
*/
#define RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_1_WOFF    (6U)
#define RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_1_SHIFT   (0U)
#define RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_1_CLRMSK  (0x00000000U)
#define RGX_PM_FREELISTSTATE_BUFFER_SET_RSV_STUFF32_1(_ft_,_x_) ((_ft_).u32_6 = (((_ft_).u32_6 & RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_1_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_1_SHIFT))))
#define RGX_PM_FREELISTSTATE_BUFFER_GET_RSV_STUFF32_1(_ft_) ((_ft_).u32_6  >>  ((RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_1_SHIFT)) & 0xffffffffU)
/*
Reserved field word 0
*/
#define RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_0_WOFF    (5U)
#define RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_0_SHIFT   (0U)
#define RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_0_CLRMSK  (0x00000000U)
#define RGX_PM_FREELISTSTATE_BUFFER_SET_RSV_STUFF32_0(_ft_,_x_) ((_ft_).u32_5 = (((_ft_).u32_5 & RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_0_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_0_SHIFT))))
#define RGX_PM_FREELISTSTATE_BUFFER_GET_RSV_STUFF32_0(_ft_) ((_ft_).u32_5  >>  ((RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_0_SHIFT)) & 0xffffffffU)
/*
The number of pages consumed for the MMU Page Table. Must be initialised to zero.
*/
#define RGX_PM_FREELISTSTATE_BUFFER_MMUPAGE_STATUS_WOFF   (4U)
#define RGX_PM_FREELISTSTATE_BUFFER_MMUPAGE_STATUS_SHIFT  (0U)
#define RGX_PM_FREELISTSTATE_BUFFER_MMUPAGE_STATUS_CLRMSK (0x00000000U)
#define RGX_PM_FREELISTSTATE_BUFFER_SET_MMUPAGE_STATUS(_ft_,_x_) ((_ft_).u32_4 = (((_ft_).u32_4 & RGX_PM_FREELISTSTATE_BUFFER_MMUPAGE_STATUS_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_FREELISTSTATE_BUFFER_MMUPAGE_STATUS_SHIFT))))
#define RGX_PM_FREELISTSTATE_BUFFER_GET_MMUPAGE_STATUS(_ft_) ((_ft_).u32_4  >>  ((RGX_PM_FREELISTSTATE_BUFFER_MMUPAGE_STATUS_SHIFT)) & 0xffffffffU)
/*
The total number of pages consumed from the free stack. Must be initialised to zero.  This field is unused in the MMUSTACK.
*/
#define RGX_PM_FREELISTSTATE_BUFFER_PAGE_STATUS_WOFF      (3U)
#define RGX_PM_FREELISTSTATE_BUFFER_PAGE_STATUS_SHIFT     (0U)
#define RGX_PM_FREELISTSTATE_BUFFER_PAGE_STATUS_CLRMSK    (0x00000000U)
#define RGX_PM_FREELISTSTATE_BUFFER_SET_PAGE_STATUS(_ft_,_x_) ((_ft_).u32_3 = (((_ft_).u32_3 & RGX_PM_FREELISTSTATE_BUFFER_PAGE_STATUS_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_FREELISTSTATE_BUFFER_PAGE_STATUS_SHIFT))))
#define RGX_PM_FREELISTSTATE_BUFFER_GET_PAGE_STATUS(_ft_) ((_ft_).u32_3  >>  ((RGX_PM_FREELISTSTATE_BUFFER_PAGE_STATUS_SHIFT)) & 0xffffffffU)
/*
Stack pointer for the free stack - the location of the next free page relative to the BaseAddr, in number of DWORDs.  Must be initialised to zero.
*/
#define RGX_PM_FREELISTSTATE_BUFFER_STACK_PTR_WOFF        (2U)
#define RGX_PM_FREELISTSTATE_BUFFER_STACK_PTR_SHIFT       (0U)
#define RGX_PM_FREELISTSTATE_BUFFER_STACK_PTR_CLRMSK      (0x00000000U)
#define RGX_PM_FREELISTSTATE_BUFFER_SET_STACK_PTR(_ft_,_x_) ((_ft_).u32_2 = (((_ft_).u32_2 & RGX_PM_FREELISTSTATE_BUFFER_STACK_PTR_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_FREELISTSTATE_BUFFER_STACK_PTR_SHIFT))))
#define RGX_PM_FREELISTSTATE_BUFFER_GET_STACK_PTR(_ft_)   ((_ft_).u32_2  >>  ((RGX_PM_FREELISTSTATE_BUFFER_STACK_PTR_SHIFT)) & 0xffffffffU)
/*
Base address of the free stack - points to the bottom of the stack.
*/
#define RGX_PM_FREELISTSTATE_BUFFER_BASE_ADDR_W0_WOFF     (0U)
#define RGX_PM_FREELISTSTATE_BUFFER_BASE_ADDR_W0_SHIFT    (5U)
#define RGX_PM_FREELISTSTATE_BUFFER_BASE_ADDR_W1_WOFF     (1U)
#define RGX_PM_FREELISTSTATE_BUFFER_BASE_ADDR_W1_SHIFT    (5U)
#define RGX_PM_FREELISTSTATE_BUFFER_BASE_ADDR_W0_CLRMSK   (0x0000001FU)
#define RGX_PM_FREELISTSTATE_BUFFER_BASE_ADDR_W1_CLRMSK   (0x00000000U)
#define RGX_PM_FREELISTSTATE_BUFFER_SET_BASE_ADDR(_ft_,_x_) { ((_ft_).u32_0 = (((_ft_).u32_0 & RGX_PM_FREELISTSTATE_BUFFER_BASE_ADDR_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000007ffffff)))  <<  5))); \
                                                          ((_ft_).u32_1 = (((_ft_).u32_1 & RGX_PM_FREELISTSTATE_BUFFER_BASE_ADDR_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x07fffffff8000000)))  >>  27))); }
#define RGX_PM_FREELISTSTATE_BUFFER_GET_BASE_ADDR(_ft_)   (((_ft_).u32_0  >>  (5)) | ((IMG_UINT64)((_ft_).u32_1 & 0xffffffffU ) << (27)))
#endif /* RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES */


#if !defined(RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES)
/*
The PM FreeListState Buffer Layout - this will apply to 3 resources - FSTACK, UFSTACK and MMUSTACK
*/
typedef struct _RGX_PM_FREELISTSTATE_BUFFER {
     IMG_UINT32 u32_0;
     IMG_UINT32 u32_1;
     IMG_UINT32 u32_2;
     IMG_UINT32 u32_3;
     IMG_UINT32 u32_4;
     IMG_UINT32 u32_5;
     IMG_UINT32 u32_6;
     IMG_UINT32 u32_7;
} RGX_PM_FREELISTSTATE_BUFFER;

/*
Reserved field word 2
*/
#define RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_2_WOFF    (7U)
#define RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_2_SHIFT   (0U)
#define RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_2_CLRMSK  (0x00000000U)
#define RGX_PM_FREELISTSTATE_BUFFER_SET_RSV_STUFF32_2(_ft_,_x_) ((_ft_).u32_7 = (((_ft_).u32_7 & RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_2_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_2_SHIFT))))
#define RGX_PM_FREELISTSTATE_BUFFER_GET_RSV_STUFF32_2(_ft_) ((_ft_).u32_7  >>  ((RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_2_SHIFT)) & 0xffffffffU)
/*
Reserved field word 1
*/
#define RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_1_WOFF    (6U)
#define RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_1_SHIFT   (0U)
#define RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_1_CLRMSK  (0x00000000U)
#define RGX_PM_FREELISTSTATE_BUFFER_SET_RSV_STUFF32_1(_ft_,_x_) ((_ft_).u32_6 = (((_ft_).u32_6 & RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_1_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_1_SHIFT))))
#define RGX_PM_FREELISTSTATE_BUFFER_GET_RSV_STUFF32_1(_ft_) ((_ft_).u32_6  >>  ((RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_1_SHIFT)) & 0xffffffffU)
/*
Reserved field word 0
*/
#define RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_0_WOFF    (5U)
#define RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_0_SHIFT   (0U)
#define RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_0_CLRMSK  (0x00000000U)
#define RGX_PM_FREELISTSTATE_BUFFER_SET_RSV_STUFF32_0(_ft_,_x_) ((_ft_).u32_5 = (((_ft_).u32_5 & RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_0_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_0_SHIFT))))
#define RGX_PM_FREELISTSTATE_BUFFER_GET_RSV_STUFF32_0(_ft_) ((_ft_).u32_5  >>  ((RGX_PM_FREELISTSTATE_BUFFER_RSV_STUFF32_0_SHIFT)) & 0xffffffffU)
/*
The number of pages consumed for the MMU Page Table. Must be initialised to zero.
*/
#define RGX_PM_FREELISTSTATE_BUFFER_MMUPAGE_STATUS_WOFF   (4U)
#define RGX_PM_FREELISTSTATE_BUFFER_MMUPAGE_STATUS_SHIFT  (0U)
#define RGX_PM_FREELISTSTATE_BUFFER_MMUPAGE_STATUS_CLRMSK (0x00000000U)
#define RGX_PM_FREELISTSTATE_BUFFER_SET_MMUPAGE_STATUS(_ft_,_x_) ((_ft_).u32_4 = (((_ft_).u32_4 & RGX_PM_FREELISTSTATE_BUFFER_MMUPAGE_STATUS_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_FREELISTSTATE_BUFFER_MMUPAGE_STATUS_SHIFT))))
#define RGX_PM_FREELISTSTATE_BUFFER_GET_MMUPAGE_STATUS(_ft_) ((_ft_).u32_4  >>  ((RGX_PM_FREELISTSTATE_BUFFER_MMUPAGE_STATUS_SHIFT)) & 0xffffffffU)
/*
The total number of pages consumed from the free stack. Must be initialised to zero.  This field is unused in the MMUSTACK.
*/
#define RGX_PM_FREELISTSTATE_BUFFER_PAGE_STATUS_WOFF      (3U)
#define RGX_PM_FREELISTSTATE_BUFFER_PAGE_STATUS_SHIFT     (0U)
#define RGX_PM_FREELISTSTATE_BUFFER_PAGE_STATUS_CLRMSK    (0x00000000U)
#define RGX_PM_FREELISTSTATE_BUFFER_SET_PAGE_STATUS(_ft_,_x_) ((_ft_).u32_3 = (((_ft_).u32_3 & RGX_PM_FREELISTSTATE_BUFFER_PAGE_STATUS_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_FREELISTSTATE_BUFFER_PAGE_STATUS_SHIFT))))
#define RGX_PM_FREELISTSTATE_BUFFER_GET_PAGE_STATUS(_ft_) ((_ft_).u32_3  >>  ((RGX_PM_FREELISTSTATE_BUFFER_PAGE_STATUS_SHIFT)) & 0xffffffffU)
/*
Stack pointer for the free stack - the location of the next free page relative to the BaseAddr, in number of DWORDs.  Must be initialised to zero.
*/
#define RGX_PM_FREELISTSTATE_BUFFER_STACK_PTR_WOFF        (2U)
#define RGX_PM_FREELISTSTATE_BUFFER_STACK_PTR_SHIFT       (0U)
#define RGX_PM_FREELISTSTATE_BUFFER_STACK_PTR_CLRMSK      (0x00000000U)
#define RGX_PM_FREELISTSTATE_BUFFER_SET_STACK_PTR(_ft_,_x_) ((_ft_).u32_2 = (((_ft_).u32_2 & RGX_PM_FREELISTSTATE_BUFFER_STACK_PTR_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_FREELISTSTATE_BUFFER_STACK_PTR_SHIFT))))
#define RGX_PM_FREELISTSTATE_BUFFER_GET_STACK_PTR(_ft_)   ((_ft_).u32_2  >>  ((RGX_PM_FREELISTSTATE_BUFFER_STACK_PTR_SHIFT)) & 0xffffffffU)
/*
Base address of the free stack - points to the bottom of the stack.
*/
#define RGX_PM_FREELISTSTATE_BUFFER_BASE_ADDR_W0_WOFF     (0U)
#define RGX_PM_FREELISTSTATE_BUFFER_BASE_ADDR_W0_SHIFT    (0U)
#define RGX_PM_FREELISTSTATE_BUFFER_BASE_ADDR_W1_WOFF     (1U)
#define RGX_PM_FREELISTSTATE_BUFFER_BASE_ADDR_W1_SHIFT    (0U)
#define RGX_PM_FREELISTSTATE_BUFFER_BASE_ADDR_W0_CLRMSK   (0x00000000U)
#define RGX_PM_FREELISTSTATE_BUFFER_BASE_ADDR_W1_CLRMSK   (0x00000000U)
#define RGX_PM_FREELISTSTATE_BUFFER_SET_BASE_ADDR(_ft_,_x_) { ((_ft_).u32_0 = (((_ft_).u32_0 & RGX_PM_FREELISTSTATE_BUFFER_BASE_ADDR_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000ffffffff)))  <<  0))); \
                                                          ((_ft_).u32_1 = (((_ft_).u32_1 & RGX_PM_FREELISTSTATE_BUFFER_BASE_ADDR_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0xffffffff00000000)))  >>  32))); }
#define RGX_PM_FREELISTSTATE_BUFFER_GET_BASE_ADDR(_ft_)   (((_ft_).u32_0  >>  (0)) | ((IMG_UINT64)((_ft_).u32_1 & 0xffffffffU ) << (32)))
#endif /* !defined(RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES) */


#if defined(RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES)
/*
256-bit granular, lower bits ignored.
Maximum addressable range supported by hardware is 1 TB.
*/
#define RGX_PM_FREELISTSTATE_BASE_ADDR_ALIGNSHIFT         (5U)
#define RGX_PM_FREELISTSTATE_BASE_ADDR_ALIGNSIZE          (32U)
#define RGX_PM_FREELISTSTATE_BASE_ADDR_BASE_ADDR          (0U)
#define RGX_PM_FREELISTSTATE_BASE_ADDR_BASE_ADDR_LOWER    (0U)
#define RGX_PM_FREELISTSTATE_BASE_ADDR_BASE_ADDR_UPPER    (68719476735ULL)
#endif /* RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES */


#if !defined(RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES)
/*
128-bit aligned.
Maximum addressable range supported by hardware is 1 TB.
The 40-bit, 16-byte-aligned address is packed into bits 35:0 of the two DWORDs.
*/
#define RGX_PM_FREELISTSTATE_BASE_ADDR_ALIGNSHIFT         (4U)
#define RGX_PM_FREELISTSTATE_BASE_ADDR_ALIGNSIZE          (16U)
#define RGX_PM_FREELISTSTATE_BASE_ADDR_BASE_ADDR          (0U)
#define RGX_PM_FREELISTSTATE_BASE_ADDR_BASE_ADDR_LOWER    (0U)
#define RGX_PM_FREELISTSTATE_BASE_ADDR_BASE_ADDR_UPPER    (68719476735ULL)
#endif /* !defined(RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES) */


/*
Maximum range supported by hardware is 23 bits.
*/
#define RGX_PM_FREELISTSTATE_STACK_PTR_STACK_PTR          (0U)
#define RGX_PM_FREELISTSTATE_STACK_PTR_STACK_PTR_LOWER    (0U)
#define RGX_PM_FREELISTSTATE_STACK_PTR_STACK_PTR_UPPER    (16777215U)


/*
Maximum range supported by hardware is 23 bits.
*/
#define RGX_PM_FREELISTSTATE_PAGE_STATUS_PAGE_STATUS      (0U)
#define RGX_PM_FREELISTSTATE_PAGE_STATUS_PAGE_STATUS_LOWER (0U)
#define RGX_PM_FREELISTSTATE_PAGE_STATUS_PAGE_STATUS_UPPER (16777215U)


/*
Maximum range supported by hardware is 23 bits.
*/
#define RGX_PM_FREELISTSTATE_MMUPAGE_STATUS_MMUPAGE_STATUS (0U)
#define RGX_PM_FREELISTSTATE_MMUPAGE_STATUS_MMUPAGE_STATUS_LOWER (0U)
#define RGX_PM_FREELISTSTATE_MMUPAGE_STATUS_MMUPAGE_STATUS_UPPER (16777215U)


#if defined(RGX_FEATURE_PM_REGISTER_CONFIG_MODE)&&defined(RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES)
/*
The PM Render Context Buffer Layout
*/
typedef struct _RGX_PM_RENDERSTATE_BUFFER {
     IMG_UINT32 u32_0;
     IMG_UINT32 u32_1;
     IMG_UINT32 u32_2;
     IMG_UINT32 u32_3;
     IMG_UINT32 u32_4;
     IMG_UINT32 u32_5;
     IMG_UINT32 u32_6;
     IMG_UINT32 u32_7;
     IMG_UINT32 u32_8;
     IMG_UINT32 u32_9;
     IMG_UINT32 u32_10;
     IMG_UINT32 u32_11;
     IMG_UINT32 u32_12;
     IMG_UINT32 u32_13;
     IMG_UINT32 u32_14;
     IMG_UINT32 u32_15;
     IMG_UINT32 u32_16;
     IMG_UINT32 u32_17;
     IMG_UINT32 u32_18;
     IMG_UINT32 u32_19;
     IMG_UINT32 u32_20;
     IMG_UINT32 u32_21;
     IMG_UINT32 u32_22;
     IMG_UINT32 u32_23;
     IMG_UINT32 u32_24;
     IMG_UINT32 u32_25;
     IMG_UINT32 u32_26;
     IMG_UINT32 u32_27;
     IMG_UINT32 u32_28;
     IMG_UINT32 u32_29;
     IMG_UINT32 u32_30;
     IMG_UINT32 u32_31;
     IMG_UINT32 u32_32;
     IMG_UINT32 u32_33;
     IMG_UINT32 u32_34;
     IMG_UINT32 u32_35;
     IMG_UINT32 u32_36;
     IMG_UINT32 u32_37;
     IMG_UINT32 u32_38;
     IMG_UINT32 u32_39;
     IMG_UINT32 u32_40;
     IMG_UINT32 u32_41;
     IMG_UINT32 u32_42;
     IMG_UINT32 u32_43;
     IMG_UINT32 u32_44;
     IMG_UINT32 u32_45;
} RGX_PM_RENDERSTATE_BUFFER;

/*
The base address of the Virtual-Physical Page Translation Table.
*/
#define RGX_PM_RENDERSTATE_BUFFER_VFP_BASE_ADDR_W0_WOFF   (10U)
#define RGX_PM_RENDERSTATE_BUFFER_VFP_BASE_ADDR_W0_SHIFT  (4U)
#define RGX_PM_RENDERSTATE_BUFFER_VFP_BASE_ADDR_W1_WOFF   (11U)
#define RGX_PM_RENDERSTATE_BUFFER_VFP_BASE_ADDR_W1_SHIFT  (4U)
#define RGX_PM_RENDERSTATE_BUFFER_VFP_BASE_ADDR_W0_CLRMSK (0x0000000FU)
#define RGX_PM_RENDERSTATE_BUFFER_VFP_BASE_ADDR_W1_CLRMSK (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_VFP_BASE_ADDR(_ft_,_x_) { ((_ft_).u32_10 = (((_ft_).u32_10 & RGX_PM_RENDERSTATE_BUFFER_VFP_BASE_ADDR_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffffff)))  <<  4))); \
                                                          ((_ft_).u32_11 = (((_ft_).u32_11 & RGX_PM_RENDERSTATE_BUFFER_VFP_BASE_ADDR_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0ffffffff0000000)))  >>  28))); }
#define RGX_PM_RENDERSTATE_BUFFER_GET_VFP_BASE_ADDR(_ft_) (((_ft_).u32_10  >>  (4)) | ((IMG_UINT64)((_ft_).u32_11 & 0xffffffffU ) << (28)))
/*
A 16-bit macrotile mask indicating which macrotiles have been freed by the ISP.
A '1' in a bit position indicates that the ISP has signalled that the corresponding macrotile can be freed.
Only the least-significant 16 bits are valid.
Only used in the 3D phase.
Must be initialised to zero.
*/
#define RGX_PM_RENDERSTATE_BUFFER_MTILEFREE_STATUS_WOFF   (9U)
#define RGX_PM_RENDERSTATE_BUFFER_MTILEFREE_STATUS_SHIFT  (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MTILEFREE_STATUS_CLRMSK (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MTILEFREE_STATUS(_ft_,_x_) ((_ft_).u32_9 = (((_ft_).u32_9 & RGX_PM_RENDERSTATE_BUFFER_MTILEFREE_STATUS_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MTILEFREE_STATUS_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MTILEFREE_STATUS(_ft_) ((_ft_).u32_9  >>  ((RGX_PM_RENDERSTATE_BUFFER_MTILEFREE_STATUS_SHIFT)) & 0xffffffffU)
/*
A 16-bit macrotile mask indicating which macrotiles have been freed by the PM.
A '1' in a bit position indicates that the corresponding macrotile has been freed, and its pages released back to the appropriate free stack.
Only the least-significant 16 bits are valid.
Only used in the 3D phase.
Must be initialised to zero.
*/
#define RGX_PM_RENDERSTATE_BUFFER_DEALLOC_MASK_STATUS_WOFF (8U)
#define RGX_PM_RENDERSTATE_BUFFER_DEALLOC_MASK_STATUS_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_DEALLOC_MASK_STATUS_CLRMSK (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_DEALLOC_MASK_STATUS(_ft_,_x_) ((_ft_).u32_8 = (((_ft_).u32_8 & RGX_PM_RENDERSTATE_BUFFER_DEALLOC_MASK_STATUS_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_DEALLOC_MASK_STATUS_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_DEALLOC_MASK_STATUS(_ft_) ((_ft_).u32_8  >>  ((RGX_PM_RENDERSTATE_BUFFER_DEALLOC_MASK_STATUS_SHIFT)) & 0xffffffffU)
/*
The base address of the VHEAP buffer.
Must be initialised to point to the location of the VHEAP buffer in memory.
*/
#define RGX_PM_RENDERSTATE_BUFFER_VHEAP_BASE_ADDR_W0_WOFF (6U)
#define RGX_PM_RENDERSTATE_BUFFER_VHEAP_BASE_ADDR_W0_SHIFT (4U)
#define RGX_PM_RENDERSTATE_BUFFER_VHEAP_BASE_ADDR_W1_WOFF (7U)
#define RGX_PM_RENDERSTATE_BUFFER_VHEAP_BASE_ADDR_W1_SHIFT (4U)
#define RGX_PM_RENDERSTATE_BUFFER_VHEAP_BASE_ADDR_W0_CLRMSK (0x0000000FU)
#define RGX_PM_RENDERSTATE_BUFFER_VHEAP_BASE_ADDR_W1_CLRMSK (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_VHEAP_BASE_ADDR(_ft_,_x_) { ((_ft_).u32_6 = (((_ft_).u32_6 & RGX_PM_RENDERSTATE_BUFFER_VHEAP_BASE_ADDR_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x000000000fffffff)))  <<  4))); \
                                                          ((_ft_).u32_7 = (((_ft_).u32_7 & RGX_PM_RENDERSTATE_BUFFER_VHEAP_BASE_ADDR_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0ffffffff0000000)))  >>  28))); }
#define RGX_PM_RENDERSTATE_BUFFER_GET_VHEAP_BASE_ADDR(_ft_) (((_ft_).u32_6  >>  (4)) | ((IMG_UINT64)((_ft_).u32_7 & 0xffffffffU ) << (28)))
/*
Reserved bits, un-used.
*/
#define RGX_PM_RENDERSTATE_BUFFER_RSV_STUFF32_WOFF        (5U)
#define RGX_PM_RENDERSTATE_BUFFER_RSV_STUFF32_SHIFT       (0U)
#define RGX_PM_RENDERSTATE_BUFFER_RSV_STUFF32_CLRMSK      (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_RSV_STUFF32(_ft_,_x_) ((_ft_).u32_5 = (((_ft_).u32_5 & RGX_PM_RENDERSTATE_BUFFER_RSV_STUFF32_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_RSV_STUFF32_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_RSV_STUFF32(_ft_)   ((_ft_).u32_5  >>  ((RGX_PM_RENDERSTATE_BUFFER_RSV_STUFF32_SHIFT)) & 0xffffffffU)
/*
The number of entries on the MLIST.  Must be initialised to zero, meaning no pages allocated.
*/
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_TAIL_WOFF         (4U)
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_TAIL_SHIFT        (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_TAIL_CLRMSK       (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MLIST_TAIL(_ft_,_x_) ((_ft_).u32_4 = (((_ft_).u32_4 & RGX_PM_RENDERSTATE_BUFFER_MLIST_TAIL_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MLIST_TAIL_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MLIST_TAIL(_ft_)    ((_ft_).u32_4  >>  ((RGX_PM_RENDERSTATE_BUFFER_MLIST_TAIL_SHIFT)) & 0xffffffffU)
/*
The base address of the MLIST.
Must be initialised to point to a block of memory where the PM can write the MLIST.
*/
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W0_WOFF (2U)
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W0_SHIFT (5U)
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W1_WOFF (3U)
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W1_SHIFT (5U)
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W0_CLRMSK (0x0000001FU)
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W1_CLRMSK (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MLIST_BASE_ADDR(_ft_,_x_) { ((_ft_).u32_2 = (((_ft_).u32_2 & RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000007ffffff)))  <<  5))); \
                                                          ((_ft_).u32_3 = (((_ft_).u32_3 & RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x07fffffff8000000)))  >>  27))); }
#define RGX_PM_RENDERSTATE_BUFFER_GET_MLIST_BASE_ADDR(_ft_) (((_ft_).u32_2  >>  (5)) | ((IMG_UINT64)((_ft_).u32_3 & 0xffffffffU ) << (27)))
/*
The number of entries on the ALIST.  Must be initialised to zero, meaning no pages allocated.
*/
#define RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W0_WOFF      (0U)
#define RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W0_SHIFT     (0U)
#define RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W1_WOFF      (1U)
#define RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W1_SHIFT     (0U)
#define RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W0_CLRMSK    (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W1_CLRMSK    (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_ALIST_TAIL(_ft_,_x_) { ((_ft_).u32_0 = (((_ft_).u32_0 & RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000ffffffff)))  <<  0))); \
                                                          ((_ft_).u32_1 = (((_ft_).u32_1 & RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0xffffffff00000000)))  >>  32))); }
#define RGX_PM_RENDERSTATE_BUFFER_GET_ALIST_TAIL(_ft_)    (((_ft_).u32_0  >>  (0)) | ((IMG_UINT64)((_ft_).u32_1 & 0xffffffffU ) << (32)))
#endif /* RGX_FEATURE_PM_REGISTER_CONFIG_MODE&&PM_BYTE_ALIGNED_BASE_ADDRESSES */


#if defined(RGX_FEATURE_PM_REGISTER_CONFIG_MODE)&&!defined(RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES)
/*
The PM Render Context Buffer Layout
*/
typedef struct _RGX_PM_RENDERSTATE_BUFFER {
     IMG_UINT32 u32_0;
     IMG_UINT32 u32_1;
     IMG_UINT32 u32_2;
     IMG_UINT32 u32_3;
     IMG_UINT32 u32_4;
     IMG_UINT32 u32_5;
     IMG_UINT32 u32_6;
     IMG_UINT32 u32_7;
     IMG_UINT32 u32_8;
     IMG_UINT32 u32_9;
     IMG_UINT32 u32_10;
     IMG_UINT32 u32_11;
} RGX_PM_RENDERSTATE_BUFFER;

/*
The base address of the Virtual-Physical Page Translation Table.
*/
#define RGX_PM_RENDERSTATE_BUFFER_VFP_BASE_ADDR_W0_WOFF   (10U)
#define RGX_PM_RENDERSTATE_BUFFER_VFP_BASE_ADDR_W0_SHIFT  (0U)
#define RGX_PM_RENDERSTATE_BUFFER_VFP_BASE_ADDR_W1_WOFF   (11U)
#define RGX_PM_RENDERSTATE_BUFFER_VFP_BASE_ADDR_W1_SHIFT  (0U)
#define RGX_PM_RENDERSTATE_BUFFER_VFP_BASE_ADDR_W0_CLRMSK (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_VFP_BASE_ADDR_W1_CLRMSK (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_VFP_BASE_ADDR(_ft_,_x_) { ((_ft_).u32_10 = (((_ft_).u32_10 & RGX_PM_RENDERSTATE_BUFFER_VFP_BASE_ADDR_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000ffffffff)))  <<  0))); \
                                                          ((_ft_).u32_11 = (((_ft_).u32_11 & RGX_PM_RENDERSTATE_BUFFER_VFP_BASE_ADDR_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0xffffffff00000000)))  >>  32))); }
#define RGX_PM_RENDERSTATE_BUFFER_GET_VFP_BASE_ADDR(_ft_) (((_ft_).u32_10  >>  (0)) | ((IMG_UINT64)((_ft_).u32_11 & 0xffffffffU ) << (32)))
/*
A 16-bit macrotile mask indicating which macrotiles have been freed by the ISP.
A '1' in a bit position indicates that the ISP has signalled that the corresponding macrotile can be freed.
Only the least-significant 16 bits are valid.
Only used in the 3D phase.
Must be initialised to zero.
*/
#define RGX_PM_RENDERSTATE_BUFFER_MTILEFREE_STATUS_WOFF   (9U)
#define RGX_PM_RENDERSTATE_BUFFER_MTILEFREE_STATUS_SHIFT  (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MTILEFREE_STATUS_CLRMSK (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MTILEFREE_STATUS(_ft_,_x_) ((_ft_).u32_9 = (((_ft_).u32_9 & RGX_PM_RENDERSTATE_BUFFER_MTILEFREE_STATUS_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MTILEFREE_STATUS_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MTILEFREE_STATUS(_ft_) ((_ft_).u32_9  >>  ((RGX_PM_RENDERSTATE_BUFFER_MTILEFREE_STATUS_SHIFT)) & 0xffffffffU)
/*
A 16-bit macrotile mask indicating which macrotiles have been freed by the PM.
A '1' in a bit position indicates that the corresponding macrotile has been freed, and its pages released back to the appropriate free stack.
Only the least-significant 16 bits are valid.
Only used in the 3D phase.
Must be initialised to zero.
*/
#define RGX_PM_RENDERSTATE_BUFFER_DEALLOC_MASK_STATUS_WOFF (8U)
#define RGX_PM_RENDERSTATE_BUFFER_DEALLOC_MASK_STATUS_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_DEALLOC_MASK_STATUS_CLRMSK (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_DEALLOC_MASK_STATUS(_ft_,_x_) ((_ft_).u32_8 = (((_ft_).u32_8 & RGX_PM_RENDERSTATE_BUFFER_DEALLOC_MASK_STATUS_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_DEALLOC_MASK_STATUS_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_DEALLOC_MASK_STATUS(_ft_) ((_ft_).u32_8  >>  ((RGX_PM_RENDERSTATE_BUFFER_DEALLOC_MASK_STATUS_SHIFT)) & 0xffffffffU)
/*
The base address of the VHEAP buffer.
Must be initialised to point to the location of the VHEAP buffer in memory.
*/
#define RGX_PM_RENDERSTATE_BUFFER_VHEAP_BASE_ADDR_W0_WOFF (6U)
#define RGX_PM_RENDERSTATE_BUFFER_VHEAP_BASE_ADDR_W0_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_VHEAP_BASE_ADDR_W1_WOFF (7U)
#define RGX_PM_RENDERSTATE_BUFFER_VHEAP_BASE_ADDR_W1_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_VHEAP_BASE_ADDR_W0_CLRMSK (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_VHEAP_BASE_ADDR_W1_CLRMSK (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_VHEAP_BASE_ADDR(_ft_,_x_) { ((_ft_).u32_6 = (((_ft_).u32_6 & RGX_PM_RENDERSTATE_BUFFER_VHEAP_BASE_ADDR_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000ffffffff)))  <<  0))); \
                                                          ((_ft_).u32_7 = (((_ft_).u32_7 & RGX_PM_RENDERSTATE_BUFFER_VHEAP_BASE_ADDR_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0xffffffff00000000)))  >>  32))); }
#define RGX_PM_RENDERSTATE_BUFFER_GET_VHEAP_BASE_ADDR(_ft_) (((_ft_).u32_6  >>  (0)) | ((IMG_UINT64)((_ft_).u32_7 & 0xffffffffU ) << (32)))
/*
Reserved bits, un-used.
*/
#define RGX_PM_RENDERSTATE_BUFFER_RSV_STUFF32_WOFF        (5U)
#define RGX_PM_RENDERSTATE_BUFFER_RSV_STUFF32_SHIFT       (0U)
#define RGX_PM_RENDERSTATE_BUFFER_RSV_STUFF32_CLRMSK      (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_RSV_STUFF32(_ft_,_x_) ((_ft_).u32_5 = (((_ft_).u32_5 & RGX_PM_RENDERSTATE_BUFFER_RSV_STUFF32_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_RSV_STUFF32_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_RSV_STUFF32(_ft_)   ((_ft_).u32_5  >>  ((RGX_PM_RENDERSTATE_BUFFER_RSV_STUFF32_SHIFT)) & 0xffffffffU)
/*
The number of entries on the MLIST.  Must be initialised to zero, meaning no pages allocated.
*/
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_TAIL_WOFF         (4U)
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_TAIL_SHIFT        (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_TAIL_CLRMSK       (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MLIST_TAIL(_ft_,_x_) ((_ft_).u32_4 = (((_ft_).u32_4 & RGX_PM_RENDERSTATE_BUFFER_MLIST_TAIL_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MLIST_TAIL_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MLIST_TAIL(_ft_)    ((_ft_).u32_4  >>  ((RGX_PM_RENDERSTATE_BUFFER_MLIST_TAIL_SHIFT)) & 0xffffffffU)
/*
The base address of the MLIST.
Must be initialised to point to a block of memory where the PM can write the MLIST.
*/
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W0_WOFF (2U)
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W0_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W1_WOFF (3U)
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W1_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W0_CLRMSK (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W1_CLRMSK (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MLIST_BASE_ADDR(_ft_,_x_) { ((_ft_).u32_2 = (((_ft_).u32_2 & RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000ffffffff)))  <<  0))); \
                                                          ((_ft_).u32_3 = (((_ft_).u32_3 & RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0xffffffff00000000)))  >>  32))); }
#define RGX_PM_RENDERSTATE_BUFFER_GET_MLIST_BASE_ADDR(_ft_) (((_ft_).u32_2  >>  (0)) | ((IMG_UINT64)((_ft_).u32_3 & 0xffffffffU ) << (32)))
/*
The number of entries on the ALIST.  Must be initialised to zero, meaning no pages allocated.
*/
#define RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W0_WOFF      (0U)
#define RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W0_SHIFT     (0U)
#define RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W1_WOFF      (1U)
#define RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W1_SHIFT     (0U)
#define RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W0_CLRMSK    (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W1_CLRMSK    (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_ALIST_TAIL(_ft_,_x_) { ((_ft_).u32_0 = (((_ft_).u32_0 & RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000ffffffff)))  <<  0))); \
                                                          ((_ft_).u32_1 = (((_ft_).u32_1 & RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0xffffffff00000000)))  >>  32))); }
#define RGX_PM_RENDERSTATE_BUFFER_GET_ALIST_TAIL(_ft_)    (((_ft_).u32_0  >>  (0)) | ((IMG_UINT64)((_ft_).u32_1 & 0xffffffffU ) << (32)))
#endif /* RGX_FEATURE_PM_REGISTER_CONFIG_MODE&&!PM_BYTE_ALIGNED_BASE_ADDRESSES */


#if !defined(RGX_FEATURE_PM_REGISTER_CONFIG_MODE)
/*
The PM Render Context Buffer Layout
*/
typedef struct _RGX_PM_RENDERSTATE_BUFFER {
     IMG_UINT32 u32_0;
     IMG_UINT32 u32_1;
     IMG_UINT32 u32_2;
     IMG_UINT32 u32_3;
     IMG_UINT32 u32_4;
     IMG_UINT32 u32_5;
     IMG_UINT32 u32_6;
     IMG_UINT32 u32_7;
     IMG_UINT32 u32_8;
     IMG_UINT32 u32_9;
     IMG_UINT32 u32_10;
     IMG_UINT32 u32_11;
     IMG_UINT32 u32_12;
     IMG_UINT32 u32_13;
     IMG_UINT32 u32_14;
     IMG_UINT32 u32_15;
     IMG_UINT32 u32_16;
     IMG_UINT32 u32_17;
     IMG_UINT32 u32_18;
     IMG_UINT32 u32_19;
     IMG_UINT32 u32_20;
     IMG_UINT32 u32_21;
     IMG_UINT32 u32_22;
     IMG_UINT32 u32_23;
     IMG_UINT32 u32_24;
     IMG_UINT32 u32_25;
     IMG_UINT32 u32_26;
     IMG_UINT32 u32_27;
     IMG_UINT32 u32_28;
     IMG_UINT32 u32_29;
     IMG_UINT32 u32_30;
     IMG_UINT32 u32_31;
     IMG_UINT32 u32_32;
     IMG_UINT32 u32_33;
     IMG_UINT32 u32_34;
     IMG_UINT32 u32_35;
     IMG_UINT32 u32_36;
     IMG_UINT32 u32_37;
     IMG_UINT32 u32_38;
     IMG_UINT32 u32_39;
     IMG_UINT32 u32_40;
     IMG_UINT32 u32_41;
     IMG_UINT32 u32_42;
     IMG_UINT32 u32_43;
     IMG_UINT32 u32_44;
     IMG_UINT32 u32_45;
} RGX_PM_RENDERSTATE_BUFFER;

/*
MMU catalogue base address for VCE pipe 3 LAST_PAGE
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE3_LAST_PAGE_WOFF (45U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE3_LAST_PAGE_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE3_LAST_PAGE_CLRMSK (0xFFF00000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_VCE_PIPE3_LAST_PAGE(_ft_,_x_) ((_ft_).u32_45 = (((_ft_).u32_45 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE3_LAST_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE3_LAST_PAGE_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_VCE_PIPE3_LAST_PAGE(_ft_) ((_ft_).u32_45  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE3_LAST_PAGE_SHIFT)) & 0x000fffffU)
/*
MMU catalogue base address for VCE pipe 3 MAPPED
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE3_MAPPED_WOFF (44U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE3_MAPPED_SHIFT (31U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE3_MAPPED_CLRMSK (0x7FFFFFFFU)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_VCE_PIPE3_MAPPED(_ft_,_x_) ((_ft_).u32_44 = (((_ft_).u32_44 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE3_MAPPED_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE3_MAPPED_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_VCE_PIPE3_MAPPED(_ft_) ((_ft_).u32_44  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE3_MAPPED_SHIFT)) & 0x00000001U)
/*
MMU catalogue base address for VCE pipe 3 INIT_PAGE
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE3_INIT_PAGE_WOFF (44U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE3_INIT_PAGE_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE3_INIT_PAGE_CLRMSK (0xFFF00000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_VCE_PIPE3_INIT_PAGE(_ft_,_x_) ((_ft_).u32_44 = (((_ft_).u32_44 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE3_INIT_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE3_INIT_PAGE_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_VCE_PIPE3_INIT_PAGE(_ft_) ((_ft_).u32_44  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE3_INIT_PAGE_SHIFT)) & 0x000fffffU)
/*
MMU catalogue base address for VCE pipe 2 LAST_PAGE
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE2_LAST_PAGE_WOFF (43U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE2_LAST_PAGE_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE2_LAST_PAGE_CLRMSK (0xFFF00000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_VCE_PIPE2_LAST_PAGE(_ft_,_x_) ((_ft_).u32_43 = (((_ft_).u32_43 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE2_LAST_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE2_LAST_PAGE_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_VCE_PIPE2_LAST_PAGE(_ft_) ((_ft_).u32_43  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE2_LAST_PAGE_SHIFT)) & 0x000fffffU)
/*
MMU catalogue base address for VCE pipe 2 MAPPED
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE2_MAPPED_WOFF (42U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE2_MAPPED_SHIFT (31U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE2_MAPPED_CLRMSK (0x7FFFFFFFU)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_VCE_PIPE2_MAPPED(_ft_,_x_) ((_ft_).u32_42 = (((_ft_).u32_42 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE2_MAPPED_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE2_MAPPED_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_VCE_PIPE2_MAPPED(_ft_) ((_ft_).u32_42  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE2_MAPPED_SHIFT)) & 0x00000001U)
/*
MMU catalogue base address for VCE pipe 2 INIT_PAGE
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE2_INIT_PAGE_WOFF (42U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE2_INIT_PAGE_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE2_INIT_PAGE_CLRMSK (0xFFF00000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_VCE_PIPE2_INIT_PAGE(_ft_,_x_) ((_ft_).u32_42 = (((_ft_).u32_42 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE2_INIT_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE2_INIT_PAGE_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_VCE_PIPE2_INIT_PAGE(_ft_) ((_ft_).u32_42  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE2_INIT_PAGE_SHIFT)) & 0x000fffffU)
/*
MMU catalogue base address for VCE pipe 1 LAST_PAGE
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE1_LAST_PAGE_WOFF (41U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE1_LAST_PAGE_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE1_LAST_PAGE_CLRMSK (0xFFF00000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_VCE_PIPE1_LAST_PAGE(_ft_,_x_) ((_ft_).u32_41 = (((_ft_).u32_41 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE1_LAST_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE1_LAST_PAGE_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_VCE_PIPE1_LAST_PAGE(_ft_) ((_ft_).u32_41  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE1_LAST_PAGE_SHIFT)) & 0x000fffffU)
/*
MMU catalogue base address for VCE pipe 1 MAPPED
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE1_MAPPED_WOFF (40U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE1_MAPPED_SHIFT (31U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE1_MAPPED_CLRMSK (0x7FFFFFFFU)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_VCE_PIPE1_MAPPED(_ft_,_x_) ((_ft_).u32_40 = (((_ft_).u32_40 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE1_MAPPED_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE1_MAPPED_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_VCE_PIPE1_MAPPED(_ft_) ((_ft_).u32_40  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE1_MAPPED_SHIFT)) & 0x00000001U)
/*
MMU catalogue base address for VCE pipe 1 INIT_PAGE
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE1_INIT_PAGE_WOFF (40U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE1_INIT_PAGE_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE1_INIT_PAGE_CLRMSK (0xFFF00000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_VCE_PIPE1_INIT_PAGE(_ft_,_x_) ((_ft_).u32_40 = (((_ft_).u32_40 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE1_INIT_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE1_INIT_PAGE_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_VCE_PIPE1_INIT_PAGE(_ft_) ((_ft_).u32_40  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE1_INIT_PAGE_SHIFT)) & 0x000fffffU)
/*
MMU catalogue base address for TE  pipe 3 LAST_PAGE
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE3_LAST_PAGE_WOFF (37U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE3_LAST_PAGE_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE3_LAST_PAGE_CLRMSK (0xFFF00000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_TE_PIPE3_LAST_PAGE(_ft_,_x_) ((_ft_).u32_37 = (((_ft_).u32_37 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE3_LAST_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE3_LAST_PAGE_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_TE_PIPE3_LAST_PAGE(_ft_) ((_ft_).u32_37  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE3_LAST_PAGE_SHIFT)) & 0x000fffffU)
/*
MMU catalogue base address for TE  pipe 3 MAPPED
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE3_MAPPED_WOFF (36U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE3_MAPPED_SHIFT (31U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE3_MAPPED_CLRMSK (0x7FFFFFFFU)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_TE_PIPE3_MAPPED(_ft_,_x_) ((_ft_).u32_36 = (((_ft_).u32_36 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE3_MAPPED_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE3_MAPPED_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_TE_PIPE3_MAPPED(_ft_) ((_ft_).u32_36  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE3_MAPPED_SHIFT)) & 0x00000001U)
/*
MMU catalogue base address for TE  pipe 3 INIT_PAGE
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE3_INIT_PAGE_WOFF (36U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE3_INIT_PAGE_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE3_INIT_PAGE_CLRMSK (0xFFF00000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_TE_PIPE3_INIT_PAGE(_ft_,_x_) ((_ft_).u32_36 = (((_ft_).u32_36 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE3_INIT_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE3_INIT_PAGE_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_TE_PIPE3_INIT_PAGE(_ft_) ((_ft_).u32_36  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE3_INIT_PAGE_SHIFT)) & 0x000fffffU)
/*
MMU catalogue base address for TE  pipe 2 LAST_PAGE
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE2_LAST_PAGE_WOFF (35U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE2_LAST_PAGE_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE2_LAST_PAGE_CLRMSK (0xFFF00000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_TE_PIPE2_LAST_PAGE(_ft_,_x_) ((_ft_).u32_35 = (((_ft_).u32_35 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE2_LAST_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE2_LAST_PAGE_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_TE_PIPE2_LAST_PAGE(_ft_) ((_ft_).u32_35  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE2_LAST_PAGE_SHIFT)) & 0x000fffffU)
/*
MMU catalogue base address for TE  pipe 2 MAPPED
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE2_MAPPED_WOFF (34U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE2_MAPPED_SHIFT (31U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE2_MAPPED_CLRMSK (0x7FFFFFFFU)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_TE_PIPE2_MAPPED(_ft_,_x_) ((_ft_).u32_34 = (((_ft_).u32_34 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE2_MAPPED_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE2_MAPPED_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_TE_PIPE2_MAPPED(_ft_) ((_ft_).u32_34  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE2_MAPPED_SHIFT)) & 0x00000001U)
/*
MMU catalogue base address for TE  pipe 2 INIT_PAGE
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE2_INIT_PAGE_WOFF (34U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE2_INIT_PAGE_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE2_INIT_PAGE_CLRMSK (0xFFF00000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_TE_PIPE2_INIT_PAGE(_ft_,_x_) ((_ft_).u32_34 = (((_ft_).u32_34 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE2_INIT_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE2_INIT_PAGE_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_TE_PIPE2_INIT_PAGE(_ft_) ((_ft_).u32_34  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE2_INIT_PAGE_SHIFT)) & 0x000fffffU)
/*
MMU catalogue base address for TE  pipe 1 LAST_PAGE
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE1_LAST_PAGE_WOFF (33U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE1_LAST_PAGE_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE1_LAST_PAGE_CLRMSK (0xFFF00000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_TE_PIPE1_LAST_PAGE(_ft_,_x_) ((_ft_).u32_33 = (((_ft_).u32_33 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE1_LAST_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE1_LAST_PAGE_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_TE_PIPE1_LAST_PAGE(_ft_) ((_ft_).u32_33  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE1_LAST_PAGE_SHIFT)) & 0x000fffffU)
/*
MMU catalogue base address for TE  pipe 1 MAPPED
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE1_MAPPED_WOFF (32U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE1_MAPPED_SHIFT (31U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE1_MAPPED_CLRMSK (0x7FFFFFFFU)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_TE_PIPE1_MAPPED(_ft_,_x_) ((_ft_).u32_32 = (((_ft_).u32_32 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE1_MAPPED_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE1_MAPPED_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_TE_PIPE1_MAPPED(_ft_) ((_ft_).u32_32  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE1_MAPPED_SHIFT)) & 0x00000001U)
/*
MMU catalogue base address for TE  pipe 1 INIT_PAGE
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE1_INIT_PAGE_WOFF (32U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE1_INIT_PAGE_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE1_INIT_PAGE_CLRMSK (0xFFF00000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_TE_PIPE1_INIT_PAGE(_ft_,_x_) ((_ft_).u32_32 = (((_ft_).u32_32 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE1_INIT_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE1_INIT_PAGE_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_TE_PIPE1_INIT_PAGE(_ft_) ((_ft_).u32_32  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE1_INIT_PAGE_SHIFT)) & 0x000fffffU)
/*
MMU catalogue base address for VCE pipe 0 LAST_PAGE
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_LAST_PAGE_WOFF (30U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_LAST_PAGE_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_LAST_PAGE_CLRMSK (0xFFF00000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_VCE_PIPE0_LAST_PAGE(_ft_,_x_) ((_ft_).u32_30 = (((_ft_).u32_30 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_LAST_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_LAST_PAGE_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_VCE_PIPE0_LAST_PAGE(_ft_) ((_ft_).u32_30  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_LAST_PAGE_SHIFT)) & 0x000fffffU)
/*
MMU catalogue base address for VCE pipe 0 ADDR
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_ADDR_WOFF (29U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_ADDR_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_ADDR_CLRMSK (0xF0000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_VCE_PIPE0_ADDR(_ft_,_x_) ((_ft_).u32_29 = (((_ft_).u32_29 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_ADDR_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_ADDR_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_VCE_PIPE0_ADDR(_ft_) ((_ft_).u32_29  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_ADDR_SHIFT)) & 0x0fffffffU)
/*
MMU catalogue base address for VCE pipe 0 MAPPED
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_MAPPED_WOFF (28U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_MAPPED_SHIFT (31U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_MAPPED_CLRMSK (0x7FFFFFFFU)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_VCE_PIPE0_MAPPED(_ft_,_x_) ((_ft_).u32_28 = (((_ft_).u32_28 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_MAPPED_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_MAPPED_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_VCE_PIPE0_MAPPED(_ft_) ((_ft_).u32_28  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_MAPPED_SHIFT)) & 0x00000001U)
/*
MMU catalogue base address for VCE pipe 0 INIT_PAGE
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_INIT_PAGE_WOFF (28U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_INIT_PAGE_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_INIT_PAGE_CLRMSK (0xFFF00000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_VCE_PIPE0_INIT_PAGE(_ft_,_x_) ((_ft_).u32_28 = (((_ft_).u32_28 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_INIT_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_INIT_PAGE_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_VCE_PIPE0_INIT_PAGE(_ft_) ((_ft_).u32_28  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_VCE_PIPE0_INIT_PAGE_SHIFT)) & 0x000fffffU)
/*
MMU catalogue base address for TE  pipe 0 LAST_PAGE
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_LAST_PAGE_WOFF (26U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_LAST_PAGE_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_LAST_PAGE_CLRMSK (0xFFF00000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_TE_PIPE0_LAST_PAGE(_ft_,_x_) ((_ft_).u32_26 = (((_ft_).u32_26 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_LAST_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_LAST_PAGE_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_TE_PIPE0_LAST_PAGE(_ft_) ((_ft_).u32_26  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_LAST_PAGE_SHIFT)) & 0x000fffffU)
/*
MMU catalogue base address for TE  pipe 0 ADDR
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_ADDR_WOFF (25U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_ADDR_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_ADDR_CLRMSK (0xF0000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_TE_PIPE0_ADDR(_ft_,_x_) ((_ft_).u32_25 = (((_ft_).u32_25 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_ADDR_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_ADDR_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_TE_PIPE0_ADDR(_ft_) ((_ft_).u32_25  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_ADDR_SHIFT)) & 0x0fffffffU)
/*
MMU catalogue base address for TE  pipe 0 MAPPED
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_MAPPED_WOFF (24U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_MAPPED_SHIFT (31U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_MAPPED_CLRMSK (0x7FFFFFFFU)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_TE_PIPE0_MAPPED(_ft_,_x_) ((_ft_).u32_24 = (((_ft_).u32_24 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_MAPPED_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_MAPPED_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_TE_PIPE0_MAPPED(_ft_) ((_ft_).u32_24  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_MAPPED_SHIFT)) & 0x00000001U)
/*
MMU catalogue base address for TE  pipe 0 INIT_PAGE
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_INIT_PAGE_WOFF (24U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_INIT_PAGE_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_INIT_PAGE_CLRMSK (0xFFF00000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_TE_PIPE0_INIT_PAGE(_ft_,_x_) ((_ft_).u32_24 = (((_ft_).u32_24 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_INIT_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_INIT_PAGE_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_TE_PIPE0_INIT_PAGE(_ft_) ((_ft_).u32_24  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_TE_PIPE0_INIT_PAGE_SHIFT)) & 0x000fffffU)
/*
MMU catalogue base address for ALIST LAST_PAGE
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_LAST_PAGE_WOFF (18U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_LAST_PAGE_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_LAST_PAGE_CLRMSK (0xFFF00000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_ALIST_LAST_PAGE(_ft_,_x_) ((_ft_).u32_18 = (((_ft_).u32_18 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_LAST_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_LAST_PAGE_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_ALIST_LAST_PAGE(_ft_) ((_ft_).u32_18  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_LAST_PAGE_SHIFT)) & 0x000fffffU)
/*
MMU catalogue base address for ALIST ADDR
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_ADDR_WOFF (17U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_ADDR_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_ADDR_CLRMSK (0xF0000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_ALIST_ADDR(_ft_,_x_) ((_ft_).u32_17 = (((_ft_).u32_17 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_ADDR_CLRMSK ) | (((_x_) & (0x0fffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_ADDR_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_ALIST_ADDR(_ft_) ((_ft_).u32_17  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_ADDR_SHIFT)) & 0x0fffffffU)
/*
MMU catalogue base address for ALIST MAPPED
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_MAPPED_WOFF (16U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_MAPPED_SHIFT (31U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_MAPPED_CLRMSK (0x7FFFFFFFU)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_ALIST_MAPPED(_ft_,_x_) ((_ft_).u32_16 = (((_ft_).u32_16 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_MAPPED_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_MAPPED_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_ALIST_MAPPED(_ft_) ((_ft_).u32_16  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_MAPPED_SHIFT)) & 0x00000001U)
/*
MMU catalogue base address for ALIST INIT_PAGE
*/
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_INIT_PAGE_WOFF (16U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_INIT_PAGE_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_INIT_PAGE_CLRMSK (0xFFF00000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MMU_CAT_BASE_ALIST_INIT_PAGE(_ft_,_x_) ((_ft_).u32_16 = (((_ft_).u32_16 & RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_INIT_PAGE_CLRMSK ) | (((_x_) & (0x000fffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_INIT_PAGE_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MMU_CAT_BASE_ALIST_INIT_PAGE(_ft_) ((_ft_).u32_16  >>  ((RGX_PM_RENDERSTATE_BUFFER_MMU_CAT_BASE_ALIST_INIT_PAGE_SHIFT)) & 0x000fffffU)
/*
Init Bit Sent Flag for TE3
*/
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE3_INIT_WOFF      (15U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE3_INIT_SHIFT     (31U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE3_INIT_CLRMSK    (0x7FFFFFFFU)
#define RGX_PM_RENDERSTATE_BUFFER_SET_VPTR_TE3_INIT(_ft_,_x_) ((_ft_).u32_15 = (((_ft_).u32_15 & RGX_PM_RENDERSTATE_BUFFER_VPTR_TE3_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (RGX_PM_RENDERSTATE_BUFFER_VPTR_TE3_INIT_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_VPTR_TE3_INIT(_ft_) ((_ft_).u32_15  >>  ((RGX_PM_RENDERSTATE_BUFFER_VPTR_TE3_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for TE3
*/
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE3_WOFF           (15U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE3_SHIFT          (0U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE3_CLRMSK         (0x80000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_VPTR_TE3(_ft_,_x_)  ((_ft_).u32_15 = (((_ft_).u32_15 & RGX_PM_RENDERSTATE_BUFFER_VPTR_TE3_CLRMSK ) | (((_x_) & (0x7fffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_VPTR_TE3_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_VPTR_TE3(_ft_)      ((_ft_).u32_15  >>  ((RGX_PM_RENDERSTATE_BUFFER_VPTR_TE3_SHIFT)) & 0x7fffffffU)
/*
Init Bit Sent Flag for VCE3
*/
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE3_INIT_WOFF     (14U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE3_INIT_SHIFT    (31U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE3_INIT_CLRMSK   (0x7FFFFFFFU)
#define RGX_PM_RENDERSTATE_BUFFER_SET_VPTR_VCE3_INIT(_ft_,_x_) ((_ft_).u32_14 = (((_ft_).u32_14 & RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE3_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE3_INIT_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_VPTR_VCE3_INIT(_ft_) ((_ft_).u32_14  >>  ((RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE3_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for VCE3
*/
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE3_WOFF          (14U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE3_SHIFT         (0U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE3_CLRMSK        (0x80000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_VPTR_VCE3(_ft_,_x_) ((_ft_).u32_14 = (((_ft_).u32_14 & RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE3_CLRMSK ) | (((_x_) & (0x7fffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE3_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_VPTR_VCE3(_ft_)     ((_ft_).u32_14  >>  ((RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE3_SHIFT)) & 0x7fffffffU)
/*
Init Bit Sent Flag for TE2
*/
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE2_INIT_WOFF      (13U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE2_INIT_SHIFT     (31U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE2_INIT_CLRMSK    (0x7FFFFFFFU)
#define RGX_PM_RENDERSTATE_BUFFER_SET_VPTR_TE2_INIT(_ft_,_x_) ((_ft_).u32_13 = (((_ft_).u32_13 & RGX_PM_RENDERSTATE_BUFFER_VPTR_TE2_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (RGX_PM_RENDERSTATE_BUFFER_VPTR_TE2_INIT_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_VPTR_TE2_INIT(_ft_) ((_ft_).u32_13  >>  ((RGX_PM_RENDERSTATE_BUFFER_VPTR_TE2_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for TE2
*/
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE2_WOFF           (13U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE2_SHIFT          (0U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE2_CLRMSK         (0x80000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_VPTR_TE2(_ft_,_x_)  ((_ft_).u32_13 = (((_ft_).u32_13 & RGX_PM_RENDERSTATE_BUFFER_VPTR_TE2_CLRMSK ) | (((_x_) & (0x7fffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_VPTR_TE2_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_VPTR_TE2(_ft_)      ((_ft_).u32_13  >>  ((RGX_PM_RENDERSTATE_BUFFER_VPTR_TE2_SHIFT)) & 0x7fffffffU)
/*
Init Bit Sent Flag for VCE2
*/
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE2_INIT_WOFF     (12U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE2_INIT_SHIFT    (31U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE2_INIT_CLRMSK   (0x7FFFFFFFU)
#define RGX_PM_RENDERSTATE_BUFFER_SET_VPTR_VCE2_INIT(_ft_,_x_) ((_ft_).u32_12 = (((_ft_).u32_12 & RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE2_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE2_INIT_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_VPTR_VCE2_INIT(_ft_) ((_ft_).u32_12  >>  ((RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE2_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for VCE2
*/
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE2_WOFF          (12U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE2_SHIFT         (0U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE2_CLRMSK        (0x80000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_VPTR_VCE2(_ft_,_x_) ((_ft_).u32_12 = (((_ft_).u32_12 & RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE2_CLRMSK ) | (((_x_) & (0x7fffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE2_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_VPTR_VCE2(_ft_)     ((_ft_).u32_12  >>  ((RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE2_SHIFT)) & 0x7fffffffU)
/*
Init Bit Sent Flag for TE1
*/
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE1_INIT_WOFF      (11U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE1_INIT_SHIFT     (31U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE1_INIT_CLRMSK    (0x7FFFFFFFU)
#define RGX_PM_RENDERSTATE_BUFFER_SET_VPTR_TE1_INIT(_ft_,_x_) ((_ft_).u32_11 = (((_ft_).u32_11 & RGX_PM_RENDERSTATE_BUFFER_VPTR_TE1_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (RGX_PM_RENDERSTATE_BUFFER_VPTR_TE1_INIT_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_VPTR_TE1_INIT(_ft_) ((_ft_).u32_11  >>  ((RGX_PM_RENDERSTATE_BUFFER_VPTR_TE1_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for TE1
*/
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE1_WOFF           (11U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE1_SHIFT          (0U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE1_CLRMSK         (0x80000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_VPTR_TE1(_ft_,_x_)  ((_ft_).u32_11 = (((_ft_).u32_11 & RGX_PM_RENDERSTATE_BUFFER_VPTR_TE1_CLRMSK ) | (((_x_) & (0x7fffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_VPTR_TE1_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_VPTR_TE1(_ft_)      ((_ft_).u32_11  >>  ((RGX_PM_RENDERSTATE_BUFFER_VPTR_TE1_SHIFT)) & 0x7fffffffU)
/*
Init Bit Sent Flag for VCE1
*/
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE1_INIT_WOFF     (10U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE1_INIT_SHIFT    (31U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE1_INIT_CLRMSK   (0x7FFFFFFFU)
#define RGX_PM_RENDERSTATE_BUFFER_SET_VPTR_VCE1_INIT(_ft_,_x_) ((_ft_).u32_10 = (((_ft_).u32_10 & RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE1_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE1_INIT_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_VPTR_VCE1_INIT(_ft_) ((_ft_).u32_10  >>  ((RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE1_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for VCE1
*/
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE1_WOFF          (10U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE1_SHIFT         (0U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE1_CLRMSK        (0x80000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_VPTR_VCE1(_ft_,_x_) ((_ft_).u32_10 = (((_ft_).u32_10 & RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE1_CLRMSK ) | (((_x_) & (0x7fffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE1_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_VPTR_VCE1(_ft_)     ((_ft_).u32_10  >>  ((RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE1_SHIFT)) & 0x7fffffffU)
/*
Init Bit Sent Flag for TE0
*/
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE0_INIT_WOFF      (9U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE0_INIT_SHIFT     (31U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE0_INIT_CLRMSK    (0x7FFFFFFFU)
#define RGX_PM_RENDERSTATE_BUFFER_SET_VPTR_TE0_INIT(_ft_,_x_) ((_ft_).u32_9 = (((_ft_).u32_9 & RGX_PM_RENDERSTATE_BUFFER_VPTR_TE0_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (RGX_PM_RENDERSTATE_BUFFER_VPTR_TE0_INIT_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_VPTR_TE0_INIT(_ft_) ((_ft_).u32_9  >>  ((RGX_PM_RENDERSTATE_BUFFER_VPTR_TE0_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for TE0
*/
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE0_WOFF           (9U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE0_SHIFT          (0U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_TE0_CLRMSK         (0x80000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_VPTR_TE0(_ft_,_x_)  ((_ft_).u32_9 = (((_ft_).u32_9 & RGX_PM_RENDERSTATE_BUFFER_VPTR_TE0_CLRMSK ) | (((_x_) & (0x7fffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_VPTR_TE0_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_VPTR_TE0(_ft_)      ((_ft_).u32_9  >>  ((RGX_PM_RENDERSTATE_BUFFER_VPTR_TE0_SHIFT)) & 0x7fffffffU)
/*
Init Bit Sent Flag for VCE0
*/
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE0_INIT_WOFF     (8U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE0_INIT_SHIFT    (31U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE0_INIT_CLRMSK   (0x7FFFFFFFU)
#define RGX_PM_RENDERSTATE_BUFFER_SET_VPTR_VCE0_INIT(_ft_,_x_) ((_ft_).u32_8 = (((_ft_).u32_8 & RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE0_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE0_INIT_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_VPTR_VCE0_INIT(_ft_) ((_ft_).u32_8  >>  ((RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE0_INIT_SHIFT)) & 0x00000001U)
/*
16KB aligned  virtual top pointer for VCE0
*/
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE0_WOFF          (8U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE0_SHIFT         (0U)
#define RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE0_CLRMSK        (0x80000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_VPTR_VCE0(_ft_,_x_) ((_ft_).u32_8 = (((_ft_).u32_8 & RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE0_CLRMSK ) | (((_x_) & (0x7fffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE0_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_VPTR_VCE0(_ft_)     ((_ft_).u32_8  >>  ((RGX_PM_RENDERSTATE_BUFFER_VPTR_VCE0_SHIFT)) & 0x7fffffffU)
/*
A 16-bit macrotile mask indicating which macrotiles have been freed by the ISP.
A '1' in a bit position indicates that the ISP has signalled that the corresponding macrotile can be freed.
Only the least-significant 16 bits are valid.
Only used in the 3D phase.
*/
#define RGX_PM_RENDERSTATE_BUFFER_MTILEFREE_STATUS_WOFF   (7U)
#define RGX_PM_RENDERSTATE_BUFFER_MTILEFREE_STATUS_SHIFT  (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MTILEFREE_STATUS_CLRMSK (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MTILEFREE_STATUS(_ft_,_x_) ((_ft_).u32_7 = (((_ft_).u32_7 & RGX_PM_RENDERSTATE_BUFFER_MTILEFREE_STATUS_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MTILEFREE_STATUS_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MTILEFREE_STATUS(_ft_) ((_ft_).u32_7  >>  ((RGX_PM_RENDERSTATE_BUFFER_MTILEFREE_STATUS_SHIFT)) & 0xffffffffU)
/*
A 16-bit macrotile mask indicating which macrotiles have been freed by the PM.
A '1' in a bit position indicates that the corresponding macrotile has been freed, and its pages released back to the appropriate free stack.
Only the least-significant 16 bits are valid.
Only used in the 3D phase.
*/
#define RGX_PM_RENDERSTATE_BUFFER_DEALLOC_MASK_STATUS_WOFF (6U)
#define RGX_PM_RENDERSTATE_BUFFER_DEALLOC_MASK_STATUS_SHIFT (0U)
#define RGX_PM_RENDERSTATE_BUFFER_DEALLOC_MASK_STATUS_CLRMSK (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_DEALLOC_MASK_STATUS(_ft_,_x_) ((_ft_).u32_6 = (((_ft_).u32_6 & RGX_PM_RENDERSTATE_BUFFER_DEALLOC_MASK_STATUS_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_DEALLOC_MASK_STATUS_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_DEALLOC_MASK_STATUS(_ft_) ((_ft_).u32_6  >>  ((RGX_PM_RENDERSTATE_BUFFER_DEALLOC_MASK_STATUS_SHIFT)) & 0xffffffffU)
/*
Reserved bits, un-used.
*/
#define RGX_PM_RENDERSTATE_BUFFER_RSV_STUFF32_WOFF        (5U)
#define RGX_PM_RENDERSTATE_BUFFER_RSV_STUFF32_SHIFT       (0U)
#define RGX_PM_RENDERSTATE_BUFFER_RSV_STUFF32_CLRMSK      (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_RSV_STUFF32(_ft_,_x_) ((_ft_).u32_5 = (((_ft_).u32_5 & RGX_PM_RENDERSTATE_BUFFER_RSV_STUFF32_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_RSV_STUFF32_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_RSV_STUFF32(_ft_)   ((_ft_).u32_5  >>  ((RGX_PM_RENDERSTATE_BUFFER_RSV_STUFF32_SHIFT)) & 0xffffffffU)
/*
The number of entries on the MLIST.
*/
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_TAIL_WOFF         (4U)
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_TAIL_SHIFT        (0U)
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_TAIL_CLRMSK       (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MLIST_TAIL(_ft_,_x_) ((_ft_).u32_4 = (((_ft_).u32_4 & RGX_PM_RENDERSTATE_BUFFER_MLIST_TAIL_CLRMSK ) | (((_x_) & (0xffffffffU))  <<  (RGX_PM_RENDERSTATE_BUFFER_MLIST_TAIL_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_MLIST_TAIL(_ft_)    ((_ft_).u32_4  >>  ((RGX_PM_RENDERSTATE_BUFFER_MLIST_TAIL_SHIFT)) & 0xffffffffU)
/*
The base address of the MLIST.
Must be initialised to point to a block of memory where the PM can write the MLIST.
*/
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W0_WOFF (2U)
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W0_SHIFT (5U)
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W1_WOFF (3U)
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W1_SHIFT (5U)
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W0_CLRMSK (0x0000001FU)
#define RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W1_CLRMSK (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_MLIST_BASE_ADDR(_ft_,_x_) { ((_ft_).u32_2 = (((_ft_).u32_2 & RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x0000000007ffffff)))  <<  5))); \
                                                          ((_ft_).u32_3 = (((_ft_).u32_3 & RGX_PM_RENDERSTATE_BUFFER_MLIST_BASE_ADDR_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x07fffffff8000000)))  >>  27))); }
#define RGX_PM_RENDERSTATE_BUFFER_GET_MLIST_BASE_ADDR(_ft_) (((_ft_).u32_2  >>  (5)) | ((IMG_UINT64)((_ft_).u32_3 & 0xffffffffU ) << (27)))
/*
Init bit sent flag for ALIST
*/
#define RGX_PM_RENDERSTATE_BUFFER_ALIST_INIT_WOFF         (1U)
#define RGX_PM_RENDERSTATE_BUFFER_ALIST_INIT_SHIFT        (31U)
#define RGX_PM_RENDERSTATE_BUFFER_ALIST_INIT_CLRMSK       (0x7FFFFFFFU)
#define RGX_PM_RENDERSTATE_BUFFER_SET_ALIST_INIT(_ft_,_x_) ((_ft_).u32_1 = (((_ft_).u32_1 & RGX_PM_RENDERSTATE_BUFFER_ALIST_INIT_CLRMSK ) | (((_x_) & (0x00000001U))  <<  (RGX_PM_RENDERSTATE_BUFFER_ALIST_INIT_SHIFT))))
#define RGX_PM_RENDERSTATE_BUFFER_GET_ALIST_INIT(_ft_)    ((_ft_).u32_1  >>  ((RGX_PM_RENDERSTATE_BUFFER_ALIST_INIT_SHIFT)) & 0x00000001U)
/*
The number of entries on the ALIST.
*/
#define RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W0_WOFF      (0U)
#define RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W0_SHIFT     (0U)
#define RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W1_WOFF      (1U)
#define RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W1_SHIFT     (0U)
#define RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W0_CLRMSK    (0x00000000U)
#define RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W1_CLRMSK    (0x80000000U)
#define RGX_PM_RENDERSTATE_BUFFER_SET_ALIST_TAIL(_ft_,_x_) { ((_ft_).u32_0 = (((_ft_).u32_0 & RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W0_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x00000000ffffffff)))  <<  0))); \
                                                          ((_ft_).u32_1 = (((_ft_).u32_1 & RGX_PM_RENDERSTATE_BUFFER_ALIST_TAIL_W1_CLRMSK ) |  (((_x_) & (IMG_UINT64_C(0x7fffffff00000000)))  >>  32))); }
#define RGX_PM_RENDERSTATE_BUFFER_GET_ALIST_TAIL(_ft_)    (((_ft_).u32_0  >>  (0)) | ((IMG_UINT64)((_ft_).u32_1 & 0x7fffffffU ) << (32)))
#endif /* !defined(RGX_FEATURE_PM_REGISTER_CONFIG_MODE) */


/*
Maximum range supported by hardware is 33 bits.
*/
#define RGX_PM_RENDERSTATE_ALIST_TAIL_ALIST_TAIL          (0U)
#define RGX_PM_RENDERSTATE_ALIST_TAIL_ALIST_TAIL_LOWER    (0U)
#define RGX_PM_RENDERSTATE_ALIST_TAIL_ALIST_TAIL_UPPER    (8589934591ULL)


#if defined(RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES)
/*
256-bit granular, lower bits ignored.
Maximum addressable range supported by hardware is 1 TB.
*/
#define RGX_PM_RENDERSTATE_MLIST_BASE_ADDR_ALIGNSHIFT     (5U)
#define RGX_PM_RENDERSTATE_MLIST_BASE_ADDR_ALIGNSIZE      (32U)
#define RGX_PM_RENDERSTATE_MLIST_BASE_ADDR_MLIST_BASE_ADDR (0U)
#define RGX_PM_RENDERSTATE_MLIST_BASE_ADDR_MLIST_BASE_ADDR_LOWER (0U)
#define RGX_PM_RENDERSTATE_MLIST_BASE_ADDR_MLIST_BASE_ADDR_UPPER (68719476735ULL)
#endif /* RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES */


#if !defined(RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES)
/*
128-bit aligned.
Maximum addressable range supported by hardware is 1 TB.
The 40-bit, 16-byte-aligned address is packed into bits 35:0 of the two DWORDs.
*/
#define RGX_PM_RENDERSTATE_MLIST_BASE_ADDR_ALIGNSHIFT     (4U)
#define RGX_PM_RENDERSTATE_MLIST_BASE_ADDR_ALIGNSIZE      (16U)
#define RGX_PM_RENDERSTATE_MLIST_BASE_ADDR_MLIST_BASE_ADDR (0U)
#define RGX_PM_RENDERSTATE_MLIST_BASE_ADDR_MLIST_BASE_ADDR_LOWER (0U)
#define RGX_PM_RENDERSTATE_MLIST_BASE_ADDR_MLIST_BASE_ADDR_UPPER (68719476735ULL)
#endif /* !defined(RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES) */


/*
Maximum range supported by hardware is 33 bits.
*/
#define RGX_PM_RENDERSTATE_MLIST_TAIL_MLIST_TAIL          (0U)
#define RGX_PM_RENDERSTATE_MLIST_TAIL_MLIST_TAIL_LOWER    (0U)
#define RGX_PM_RENDERSTATE_MLIST_TAIL_MLIST_TAIL_UPPER    (8589934591ULL)


#if defined(RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES)
/*
128-bit granular, lower bits ignored.
Maximum addressable range supported by hardware is 1 TB.
*/
#define RGX_PM_RENDERSTATE_VHEAP_BASE_ADDR_ALIGNSHIFT     (4U)
#define RGX_PM_RENDERSTATE_VHEAP_BASE_ADDR_ALIGNSIZE      (16U)
#define RGX_PM_RENDERSTATE_VHEAP_BASE_ADDR_VHEAP_BASE_ADDR (0U)
#define RGX_PM_RENDERSTATE_VHEAP_BASE_ADDR_VHEAP_BASE_ADDR_LOWER (0U)
#define RGX_PM_RENDERSTATE_VHEAP_BASE_ADDR_VHEAP_BASE_ADDR_UPPER (68719476735ULL)
#endif /* RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES */


#if !defined(RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES)
/*
128-bit aligned.
Maximum addressable range supported by hardware is 1 TB.
The 40-bit, 16-byte-aligned address is packed into bits 35:0 of the two DWORDs.
*/
#define RGX_PM_RENDERSTATE_VHEAP_BASE_ADDR_ALIGNSHIFT     (4U)
#define RGX_PM_RENDERSTATE_VHEAP_BASE_ADDR_ALIGNSIZE      (16U)
#define RGX_PM_RENDERSTATE_VHEAP_BASE_ADDR_VHEAP_BASE_ADDR (0U)
#define RGX_PM_RENDERSTATE_VHEAP_BASE_ADDR_VHEAP_BASE_ADDR_LOWER (0U)
#define RGX_PM_RENDERSTATE_VHEAP_BASE_ADDR_VHEAP_BASE_ADDR_UPPER (68719476735ULL)
#endif /* !defined(RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES) */


/*
Only the 16 least-significant bits are used
*/
#define RGX_PM_RENDERSTATE_DEALLOC_MASK_STATUS_DEALLOC_MASK_STATUS (0U)
#define RGX_PM_RENDERSTATE_DEALLOC_MASK_STATUS_DEALLOC_MASK_STATUS_LOWER (0U)
#define RGX_PM_RENDERSTATE_DEALLOC_MASK_STATUS_DEALLOC_MASK_STATUS_UPPER (65535U)


/*
Only the 16 least-significant bits are used
*/
#define RGX_PM_RENDERSTATE_MTILEFREE_STATUS_MTILEFREE_STATUS (0U)
#define RGX_PM_RENDERSTATE_MTILEFREE_STATUS_MTILEFREE_STATUS_LOWER (0U)
#define RGX_PM_RENDERSTATE_MTILEFREE_STATUS_MTILEFREE_STATUS_UPPER (65535U)


#if defined(RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES)
/*
128-bit granular, lower bits ignored.
Maximum addressable range supported by hardware is 1 TB.
*/
#define RGX_PM_RENDERSTATE_VFP_BASE_ADDR_ALIGNSHIFT       (4U)
#define RGX_PM_RENDERSTATE_VFP_BASE_ADDR_ALIGNSIZE        (16U)
#define RGX_PM_RENDERSTATE_VFP_BASE_ADDR_VFP_BASE_ADDR    (0U)
#define RGX_PM_RENDERSTATE_VFP_BASE_ADDR_VFP_BASE_ADDR_LOWER (0U)
#define RGX_PM_RENDERSTATE_VFP_BASE_ADDR_VFP_BASE_ADDR_UPPER (68719476735ULL)
#endif /* RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES */


#if !defined(RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES)
/*
128-bit aligned.
Maximum addressable range supported by hardware is 1 TB.
The 40-bit, 16-byte-aligned address is packed into bits 35:0 of the two DWORDs.
*/
#define RGX_PM_RENDERSTATE_VFP_BASE_ADDR_ALIGNSHIFT       (4U)
#define RGX_PM_RENDERSTATE_VFP_BASE_ADDR_ALIGNSIZE        (16U)
#define RGX_PM_RENDERSTATE_VFP_BASE_ADDR_VFP_BASE_ADDR    (0U)
#define RGX_PM_RENDERSTATE_VFP_BASE_ADDR_VFP_BASE_ADDR_LOWER (0U)
#define RGX_PM_RENDERSTATE_VFP_BASE_ADDR_VFP_BASE_ADDR_UPPER (68719476735ULL)
#endif /* !defined(RGX_FEATURE_PM_BYTE_ALIGNED_BASE_ADDRESSES) */


#endif /* RGXPMDEFS_H */

/*****************************************************************************
 End of file (rgxpmdefs.h)
*****************************************************************************/
